电诱发耳声发射的声增强:实验和模型结果

Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference Pub Date : 1991-04-04 DOI:10.1109/NEBC.1991.154652

S. Xue, D. Mountain, A. Hubbard

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引用次数: 0

摘要

探讨了声刺激对电诱发声发射(eeae)的影响。在沙鼠耳蜗第二转中注入15 μ A的350 Hz或750 Hz的正弦电流，同时声信号在声压级和频率上进行步进。在每个声频下，以无声输入的发射数据为控制，分6步从30 dB SPL到80 dB SPL变化声刺激。结果表明，对耳蜗进行声刺激可使EEAE增强至20 dB。听觉增强在很大程度上取决于耳蜗的状况。最大的增强发生在靠近电极位置特征频率的声波频率上。增强阈值(1 dB增强)调谐曲线在形状上与耳蜗调谐曲线相似，但调谐范围更广。这表明排放物来自以电极为中心的分布式耳蜗区域。基于简单假设的模型所得到的结果与实验数据在定性上是一致的。

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Acoustic enhancement of electrically evoked otoacoustic emissions: experiment and model results

The authors explore the effect of acoustic stimuli on electrically evoked acoustic emissions (EEAEs). A sinusoidal current of 15 mu A of either 350 Hz or 750 Hz was injected into the second turn of the gerbil cochlea while acoustic signals were stepped in both sound pressure level and frequency. At each acoustic frequency, emission data without acoustic input were taken as control, and the acoustic stimuli were varied from 30 dB SPL to 80 dB SPL in 6 steps. The results show that EEAE can be enhanced up to 20 dB by presenting acoustic stimuli to the cochlea. Acoustic enhancement is highly dependent upon the condition of the cochlea. The greatest enhancement occurs for acoustic frequencies near the characteristic frequency of the electrode place. The enhancement threshold (1 dB enhancement) tuning curve is similar to a cochlea tuning curve in shape, but is more broadly tuned. This suggests that the emissions originate from a distributed cochlear region centered around the electrode place. A model based on simple assumptions gives results which are in qualitative agreement with the experimental data.<>

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Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference

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