高频条件下外毛细胞膜压电特性对受体电位的影响

A. Spector, W. Brownell, A. Popel
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引用次数: 3

摘要

我们发现,引入细胞膜的压电特性可以改善耳蜗外毛细胞的带通特性。与传统分析相反,细胞膜受体电位不会趋于零,并且在任何频率下都大于限值。压电特性会在细胞壁中产生额外的应变相关位移电流。在短细胞中,我们发现在约2-3 mV的低频值和0.1%的应变水平下,受体电位在整个频率范围内可达到0.4 mV。在长晶胞中,我们发现压电特性的影响可以忽略不计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of outer hair cell membrane piezoelectric properties on the receptor potential under high-frequency conditions
We have found that the band pass characteristics of the cochlear outer hair cell can be improved by introducing the piezoelectric properties of the cell membrane. In contrast to the conventional analysis, the cell membrane receptor potential does not tend to zero and at any frequency is greater than a limiting value. The piezoelectric properties cause an additional, strain-dependent, displacement current in the cell wall. In short cells, we have found that for the low-frequency value about 2-3 mV and the strain level 0.1% the receptor potential can reach 0.4 mV throughout the whole frequency range. In long cells, we have found that the effect of the piezoelectric properties is negligible.
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