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补偿耳声发射测量、数据中的中耳压力偏差,并与中耳模型进行比较。

Compensating for deviant middle ear pressure in otoacoustic emission measurements, data, and comparison to a middle ear model.

机构信息

Department of Otorhinolaryngology, Head and Neck Surgery, Maastricht University Medical Center, Maastricht, The Netherlands.

出版信息

Otol Neurotol. 2012 Jun;33(4):504-11. doi: 10.1097/MAO.0b013e3182536d9f.

DOI:10.1097/MAO.0b013e3182536d9f
PMID:22569147
Abstract

OBJECTIVE

Deviant middle ear pressure has a negative effect on the forward and backward transmission of stimulus and emissions through the middle ear. Resolving this deviant middle ear pressure is expected to lead to better middle ear transmission and, as a result of this, stronger otoacoustic emissions, which are better detectable. We investigated the effect of compensation o a deviant tympanic peak pressure on click-evoked otoacoustic emissions (CEOAEs). Second, we compared patient data to model predictions made by Zwislocki's middle ear model.

SETTING

University Medical Center.

PATIENTS

Fifty-nine children aged between 0.5 and 9 years (mean, 4.4 yr).

INTERVENTION

Hearing investigations including CEOAE measurements at ambient and at compensated tympanic peak pressure (TPP).

MAIN OUTCOME MEASURE

CEOAEs at ambient and compensated TPP.

RESULTS

Compensation of TPP resulted in higher emission amplitudes below 2 kHz (increase of 8-11 dB). In addition, the compensated measurement showed an increased phase lag (up to one-fourth cycle). For ears with mild deviations of TPP, Zwislocki's model could describe these changes. Pressure compensation was well described by a compliance increase of the tympanic membrane, the malleus, and the incus.

CONCLUSION

Compensating the ear canal pressure for negative tympanic peak pressure increased CEOAE amplitudes below 2 kHz and increased the phase lag. These changes can be predicted from an increase of the compliance of the tympanic membrane, incus, and malleus, as a consequence of the pressure compensation.

摘要

目的

中耳压力异常会对刺激和排放物通过中耳的前后传输产生负面影响。解决这种异常中耳压力有望改善中耳传输,从而导致更强的耳声发射,这些发射更容易检测到。我们研究了补偿异常鼓室峰压对click-evoked otoacoustic emissions(CEOAEs)的影响。其次,我们将患者数据与 Zwislocki 中耳模型的模型预测进行了比较。

环境

大学医学中心。

患者

59 名年龄在 0.5 至 9 岁之间的儿童(平均年龄 4.4 岁)。

干预

听力调查,包括在环境和补偿鼓室峰压(TPP)下进行 CEOAE 测量。

主要观察指标

环境和补偿 TPP 下的 CEOAEs。

结果

补偿 TPP 导致 2 kHz 以下的发射幅度增加(增加 8-11dB)。此外,补偿测量显示相位滞后增加(高达四分之一周期)。对于 TPP 轻度偏差的耳朵,Zwislocki 的模型可以描述这些变化。鼓膜、锤骨和砧骨的顺应性增加可以很好地描述压力补偿。

结论

补偿耳道负的鼓室峰压可增加 2 kHz 以下的 CEOAE 幅度,并增加相位滞后。这些变化可以通过鼓膜、砧骨和锤骨顺应性的增加来预测,这是压力补偿的结果。

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引用本文的文献

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Trends Hear. 2018 Jan-Dec;22:2331216518812251. doi: 10.1177/2331216518812251.
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Pressurized transient otoacoustic emissions measured using click and chirp stimuli.使用短声和啁啾刺激测量的瞬态耳声发射增压。
J Acoust Soc Am. 2018 Jan;143(1):399. doi: 10.1121/1.5021252.