Effect of Middle-Ear Pathology on High-Frequency Ear Canal Reflectance Measurements in the Frequency and Time Domains.

Gabrielle R Merchant, Jonathan H Siegel, Stephen T Neely, John J Rosowski, Hideko H Nakajima
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Abstract

The effects of middle-ear pathology on wideband acoustic immittance and reflectance at frequencies above 6-8 kHz have not been documented, nor has the effect of such pathologies on the time-domain reflectance. We describe an approach that utilizes sound frequencies as high as 20 kHz and quantifies reflectance in both the frequency and time domains. Experiments were performed with fresh normal human temporal bones before and after simulating various middle-ear pathologies, including malleus fixation, stapes fixation, and disarticulation. In addition to experimental data, computational modeling was used to obtain fitted parameter values of middle-ear elements that vary systematically due to the simulated pathologies and thus may have diagnostic implications. Our results demonstrate that the time-domain reflectance, which requires acoustic measurements at high frequencies, varies with middle-ear condition. Furthermore, the extended bandwidth frequency-domain reflectance data was used to estimate parameters in a simple model of the ear canal and middle ear that separates three major conductive pathologies from each other and from the normal state.

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中耳病变对频域和时域高频耳道反射测量的影响
中耳病变对频率高于 6-8 kHz 的宽带声锲入度和反射率的影响尚未被记录,此类病变对时域反射率的影响也未被记录。我们介绍了一种利用高达 20 kHz 的声频并同时量化频域和时域反射率的方法。在模拟各种中耳病变(包括耳郭固定、镫骨固定和耳骨脱节)前后,用新鲜的正常人颞骨进行了实验。除了实验数据外,我们还利用计算建模来获得中耳元件的拟合参数值,这些参数值会因模拟病变而发生系统性变化,因此可能具有诊断意义。我们的研究结果表明,时域反射率(需要在高频进行声学测量)会随着中耳状况的变化而变化。此外,扩展带宽频域反射率数据被用于估算耳道和中耳简单模型的参数,该模型将三种主要传导性病变与正常状态区分开来。
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