低至中度年度噪声暴露的耳朵的内侧橄榄耳蜗反射强度
Medial Olivocochlear Reflex Strength in Ears With Low-to-Moderate Annual Noise Exposure.
作者信息
Lewis James D, Goettl-Meyer Morgaine, Lee Donguk
机构信息
Department of Audiology and Speech Pathology, The University of Tennessee Health Science Center, Knoxville.
Department of Physiology and Biophysics, University of Colorado Anschutz Medical Campus, Aurora.
出版信息
J Speech Lang Hear Res. 2023 Apr 12;66(4):1428-1443. doi: 10.1044/2022_JSLHR-22-00433. Epub 2023 Mar 20.
PURPOSE
Studies in lower mammals demonstrate enhancement of the medial olivocochlear reflex (MOCR) following noise exposure. A similar effect may occur in humans, and there is some evidence of an individual's acoustic history affecting the MOCR. The current work evaluates the relationship between an individual's annual noise exposure history and their MOCR strength. Given the potential role of the MOCR as a biological hearing protector, it is important to identify factors associated with MOCR strength.
METHOD
Data were collected from 98 normal-hearing young adults. Annual noise exposure history was estimated using the Noise Exposure Questionnaire. MOCR strength was assayed using click-evoked otoacoustic emissions (CEOAEs) measured with and without noise presented to the contralateral ear. MOCR metrics included the MOCR-induced otoacoustic emission (OAE) magnitude shift and phase shift. A CEOAE signal-to-noise ratio (SNR) of at least 12 dB was required for estimation of the MOCR metrics. Linear regression was applied to evaluate the relationship between MOCR metrics and annual noise exposure.
RESULTS
Annual noise exposure was not a statistically significant predictor of the MOCR-induced CEOAE magnitude shift. However, annual noise exposure was a statistically significant predictor of the MOCR-induced CEOAE phase shift-the MOCR-induced phase shift decreased with increasing noise exposure. Additionally, annual noise exposure was a statistically significant predictor of OAE level.
CONCLUSIONS
Findings contrast with recent work that suggests MOCR strength increases with annual noise exposure. Compared with previous work, data for this study were collected using more stringent SNR criteria, which is expected to increase the precision of the MOCR metrics. Additionally, data were collected for a larger subject population with a wider range of noise exposures. Whether findings generalize to other exposure durations and levels is unknown and requires future study.
目的
对低等哺乳动物的研究表明,噪声暴露后内侧橄榄耳蜗反射(MOCR)会增强。人类可能也会出现类似效应,并且有证据表明个体的声学经历会影响MOCR。当前研究评估个体年度噪声暴露史与其MOCR强度之间的关系。鉴于MOCR作为生物听力保护机制的潜在作用,识别与MOCR强度相关的因素很重要。
方法
收集了98名听力正常的年轻成年人的数据。使用噪声暴露问卷估计年度噪声暴露史。通过在对侧耳施加和不施加噪声的情况下测量的瞬态诱发耳声发射(CEOAEs)来测定MOCR强度。MOCR指标包括MOCR诱发的耳声发射(OAE)幅度变化和相位变化。估计MOCR指标时,CEOAEs的信噪比(SNR)至少需要12 dB。应用线性回归评估MOCR指标与年度噪声暴露之间的关系。
结果
年度噪声暴露不是MOCR诱发的CEOAEs幅度变化的统计学显著预测因素。然而,年度噪声暴露是MOCR诱发的CEOAEs相位变化的统计学显著预测因素——MOCR诱发的相位变化随噪声暴露增加而减小。此外,年度噪声暴露是OAE水平的统计学显著预测因素。
结论
研究结果与近期表明MOCR强度随年度噪声暴露增加的研究相反。与之前的研究相比,本研究的数据收集采用了更严格的SNR标准,这有望提高MOCR指标的精度。此外,收集了更大样本量且噪声暴露范围更广的受试者数据。这些结果是否适用于其他暴露持续时间和水平尚不清楚,需要未来进一步研究。
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