Research Service 151, VA Loma Linda Healthcare System, Loma Linda, California, USA.
Department of Otolaryngology - Head & Neck Surgery, Loma Linda University Health, Loma Linda, California, USA.
Ear Hear. 2018 May/Jun;39(3):583-593. doi: 10.1097/AUD.0000000000000514.
The medial olivocochlear (MOC) efferent system can modify cochlear function to improve sound detection in noise, but its role in speech perception in noise is unclear. The purpose of this study was to determine the association between MOC efferent activity and performance on two speech-in-noise tasks at two signal-to-noise ratios (SNRs). It was hypothesized that efferent activity would be more strongly correlated with performance at the more challenging SNR, relative to performance at the less challenging SNR.
Sixteen adults aged 35 to 73 years participated. Subjects had pure-tone averages ≤25 dB HL and normal middle ear function. High-frequency pure-tone averages were computed across 3000 to 8000 Hz and ranged from 6.3 to 48.8 dB HL. Efferent activity was assessed using contralateral suppression of transient-evoked otoacoustic emissions (TEOAEs) measured in right ears, and MOC activation was achieved by presenting broadband noise to left ears. Contralateral suppression was expressed as the decibel change in TEOAE magnitude obtained with versus without the presence of the broadband noise. TEOAE responses were also examined for middle ear muscle reflex activation and synchronous spontaneous otoacoustic emissions (SSOAEs). Speech-in-noise perception was assessed using the closed-set coordinate response measure word recognition task and the open-set Institute of Electrical and Electronics Engineers sentence task. Speech and noise were presented to right ears at two SNRs. Performance on each task was scored as percent correct. Associations between contralateral suppression and speech-in-noise performance were quantified using partial rank correlational analyses, controlling for the variables age and high-frequency pure-tone average.
One subject was excluded due to probable middle ear muscle reflex activation. Subjects showed a wide range of contralateral suppression values, consistent with previous reports. Three subjects with SSOAEs had similar contralateral suppression results as subjects without SSOAEs. The magnitude of contralateral suppression was not significantly correlated with speech-in-noise performance on either task at a single SNR (p > 0.05), contrary to hypothesis. However, contralateral suppression was significantly correlated with the slope of the psychometric function, computed as the difference between performance levels at the two SNRs divided by 3 (decibel difference between the 2 SNRs) for the coordinate response measure task (partial rs = 0.59; p = 0.04) and for the Institute of Electrical and Electronics Engineers task (partial rs = 0.60; p = 0.03).
In a group of primarily older adults with normal hearing or mild hearing loss, olivocochlear efferent activity assessed using contralateral suppression of TEOAEs was not associated with speech-in-noise performance at a single SNR. However, auditory efferent activity appears to be associated with the slope of the psychometric function for both a word and sentence recognition task in noise. Results suggest that individuals with stronger MOC efferent activity tend to be more responsive to changes in SNR, where small increases in SNR result in better speech-in-noise performance relative to individuals with weaker MOC efferent activity. Additionally, the results suggest that the slope of the psychometric function may be a more useful metric than performance at a single SNR when examining the relationship between speech recognition in noise and MOC efferent activity.
内侧橄榄耳蜗(MOC)传出系统可以调节耳蜗功能,以改善噪声中的声音检测,但它在噪声中的语音感知中的作用尚不清楚。本研究的目的是确定 MOC 传出活动与在两个信号噪声比(SNR)下进行的两项语音感知任务的表现之间的关联。假设传出活动与更具挑战性的 SNR 下的表现比在不太具挑战性的 SNR 下的表现具有更强的相关性。
16 名年龄在 35 岁至 73 岁之间的成年人参加了这项研究。受试者的纯音平均值≤25 dB HL,中耳功能正常。高频纯音平均值是在 3000 到 8000 Hz 之间计算的,范围从 6.3 到 48.8 dB HL。使用右耳测量的瞬态诱发耳声发射(TEOAEs)的对侧抑制来评估传出活动,通过向左耳呈现宽带噪声来实现 MOC 激活。对侧抑制表示在存在和不存在宽带噪声的情况下 TEOAE 幅度的分贝变化。还检查了 TEOAE 反应是否存在中耳肌反射激活和同步自发耳声发射(SSOAEs)。使用闭集坐标响应测量词识别任务和开放集电气和电子工程师协会(Institute of Electrical and Electronics Engineers,IEEE)句子任务评估噪声中的语音感知。右耳以两个 SNR 呈现语音和噪声。使用每个任务的百分比正确来评分。使用偏秩相关分析来量化对侧抑制与语音感知性能之间的关联,同时控制变量年龄和高频纯音平均值。
由于可能存在中耳肌反射激活,有 1 名受试者被排除在外。受试者表现出广泛的对侧抑制值,与之前的报告一致。有 3 名受试者具有 SSOAEs,其对侧抑制结果与没有 SSOAEs 的受试者相似。对侧抑制的幅度与单个 SNR 下的语音感知性能(p > 0.05),与假设相反,没有显著相关性。然而,对侧抑制与坐标响应测量任务(部分 rs = 0.59;p = 0.04)和 IEEE 任务(部分 rs = 0.60;p = 0.03)的心理物理函数斜率显著相关,该斜率是通过两个 SNR 之间的性能水平差异除以 3(两个 SNR 之间的分贝差异)计算得出的。
在一组主要由年龄较大的听力正常或轻度听力损失的成年人组成的群体中,使用 TEOAE 的对侧抑制评估的橄榄耳蜗传出活动与单个 SNR 下的噪声中的语音感知性能无关。然而,听觉传出活动似乎与噪声中单词和句子识别任务的心理物理函数斜率有关。结果表明,具有更强 MOC 传出活动的个体在 SNR 变化时更敏感,与具有较弱 MOC 传出活动的个体相比,SNR 的微小增加会导致更好的噪声中的语音感知性能。此外,结果表明,当检查噪声中的语音识别与 MOC 传出活动之间的关系时,心理物理函数的斜率可能是比单个 SNR 性能更有用的指标。
