Comparison of Saccular Function in Nonmusicians and Violinists Using cVEMP: A Pilot Study

Annals of Otology and Neurotology Pub Date : 2021-09-08 DOI:10.1055/s-0041-1735384

Eva Eadle D’Souza, K. Yerraguntla

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Abstract

Abstract Introduction Human auditory and vestibular systems change due to noise exposure. Professional musicians are often subjected to loud music and longer durations as part of their practice. Although the effects of music have been explored extensively on the auditory system, it is important to understand changes in the vestibular system also. The current study is aimed to compare cervical vestibular evoked myogenic potential (cVEMP) findings in nonmusicians and violinists to understand if there are any changes in the P1 and N1 latencies and absolute amplitudes in the violinists’ groups because of their exposure to violin music. Materials and Methods Twelve participants (6 nonmusicians and 6 violinists) of both genders were included in the study. Pure tone audiometry and distortion product otoacoustic emissions (DPOAEs) were performed on all the participants. cVEMP P1 and N1 latencies and absolute amplitudes were obtained, and overall mean differences were compared within and between groups. Results Pure tone average and DPOAE were within the normal range between and within the groups. Results indicate that P1 and N1 absolute amplitudes and latencies were slightly prolonged in the violinists’ group; however, the mean difference was not statistically significant. Comparison of mean absolute amplitudes and latencies between the ears in the violinists’ group showed longer latencies and greater absolute amplitudes in the left ear of violinists as compared with the right ear. In the study, the violinists’ group consisted of participants who had an average daily exposure of about one-and-a-half hours and had an experience of playing the instrument for more than 5 years. Conclusion cVEMP is useful in detecting early changes in the saccule that may occur due to noise exposure. It can be concluded that, even before a clinically detectable hearing loss or vestibular damage, changes in saccule are observed with the help of cVEMP and should be included in the audiovestibular test for early identification.

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用cemp比较非音乐家和小提琴家的球囊功能:一项初步研究

人的听觉和前庭系统由于噪声暴露而发生变化。作为练习的一部分，专业音乐家经常要忍受吵闹的音乐和更长的时间。虽然音乐对听觉系统的影响已被广泛探讨，但了解前庭系统的变化也很重要。目前的研究旨在比较非音乐家和小提琴手的颈椎前庭诱发肌电位(cemp)结果，以了解小提琴手组的P1和N1潜伏期和绝对振幅是否因为接触小提琴音乐而发生任何变化。材料与方法研究对象为男女各12人，其中非音乐家6人，小提琴手6人。对所有受试者进行纯音测听和失真积耳声发射(dpoae)。获得cemp P1和N1潜伏期及绝对振幅，比较组内和组间总体平均差异。结果各组间纯音平均值和DPOAE均在正常范围内。结果表明，小提琴组的P1、N1绝对振幅和潜伏期略有延长;然而，平均差异无统计学意义。对比小提琴组两耳间的平均绝对振幅和潜伏期，发现小提琴组的左耳潜伏期比右耳长，绝对振幅也比右耳大。在这项研究中，小提琴手组的参与者平均每天接触大约一个半小时，并且有超过5年的演奏经验。结论cemp可早期发现噪声引起的囊性病变。由此可见，即使在临床可检测到的听力损失或前庭损伤之前，在cemp的帮助下，也可以观察到囊泡的变化，并应包括在听觉前庭试验中，以便早期识别。

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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Annals of Otology and Neurotology

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