小鼠失真产物耳声发射比率函数与耳蜗振动的相似调谐。

James B Dewey, Christopher A Shera
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引用次数: 0

摘要

当两个刺激音(频率分别为 f1 和 f2,f2 > f1)诱发时,随着 f2 和 f1 之间比率的变化,特定失真产物耳声发射(DPOAE)成分的振幅会呈现出特征性的带通形状。这种带通形状被归因于各种机制,包括耳蜗内共振、抑制和波干扰,并被认为与耳蜗频率调谐有关。人类研究表明,心理物理调谐与 DPOAE 振幅与 f2/f1 比率函数的调谐之间存在适度的相关性,但后者与耳蜗机械反应调谐之间的关系尚未确定。本文通过直接比较野生型 CBA/CaJ 小鼠的 DPOAEs 和耳蜗振动来解决这一问题。使用固定-f2、扫频-f1范式诱发 DPOAEs,并使用光学相干断层扫描测量具有 f2 附近特征频率的耳蜗位置的位移。研究发现,2f1-f2 DPOAE比率函数的调谐尖锐度与基底膜和/或胸膜对单音的反应极为相似,所有反应的调谐尖锐度都随着刺激水平的降低而增加。这种关系在 f2 频率为 ~8 至 22 kHz 时均可观察到。随着 f2/f1 比值的变化,耳蜗内的失真产物并没有表现出带通形状,这表明流向镫骨的失真产物之间的干扰可能是 DPOAE 比值函数调谐的原因。虽然这些发现表明 DPOAE 比值函数可用于无创推断耳蜗调谐,但这种关系是否适用于其他物种和较低频率区域仍有待确定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Similar Tuning of Distortion-Product Otoacoustic Emission Ratio Functions and Cochlear Vibrations in Mice.

When elicited by two stimulus tones (at frequencies f1 and f2, f2 > f1), the amplitudes of specific distortion-product otoacoustic emission (DPOAE) components exhibit a characteristic bandpass shape as the ratio between f2 and f1 is varied. This bandpass shape has been attributed to various mechanisms including intracochlear resonance, suppression, and wave interference, and has been proposed to be related to cochlear frequency tuning. While human studies suggest modest correlations between psychophysical tuning and the tuning of DPOAE amplitude vs. f2/f1 ratio functions, a relationship between the latter and the tuning of cochlear mechanical responses has yet to be established. This was addressed here through direct comparisons of DPOAEs and cochlear vibrations in wild-type CBA/CaJ mice. DPOAEs were elicited using a fixed-f2, swept-f1 paradigm, and optical coherence tomography was used to measure displacements from cochlear locations with characteristic frequencies near f2. The tuning sharpness of 2f1-f2 DPOAE ratio functions was found to be remarkably similar to that of basilar membrane and/or tectorial membrane responses to single tones, with the tuning sharpness of all responses increasing similarly with decreasing stimulus level. This relationship was observed for f2 frequencies ranging from ~8 to 22 kHz. Intracochlear distortion products did not exhibit a bandpass shape as the f2/f1 ratio was varied, indicating that interference between distortion products traveling to the stapes may be responsible for the tuning of the DPOAE ratio function. While these findings suggest that DPOAE ratio functions could be used to noninvasively infer cochlear tuning, it remains to be determined whether this relationship holds in other species and for lower frequency regions.

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