耳蜗频率调谐的亥姆霍兹-盖顿共振理论的定量再评价。

Charles F Babbs
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引用次数: 14

摘要

为了探讨耳蜗声频转导的基本生物力学,从第一性原理出发,建立了耳蜗基底膜的二维解析模型。定量分析表明,沿膜的轴向力可以忽略不计,将问题压缩为径向维度的一组有序一维模型,其中所有参数都可以从实验数据中指定。非对称边界条件下径向模型的解产生了真实的变形模式。由此得到的二阶微分方程,基于Helmholtz和Guyton的原始概念,并包括粘弹性恢复力,预测了与经典观测一致的频率图和挠度幅度。他们还预测了在周围骨头上钻一个观察孔的影响,耳蜗螺旋曲率的影响,以及在各种实验条件下的明显行波的影响。经典Helmholtz-Guyton模型的定量再现抓住了耳蜗力学的本质,并统一了相互竞争的共振和行波理论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Quantitative reappraisal of the helmholtz-guyton resonance theory of frequency tuning in the cochlea.

Quantitative reappraisal of the helmholtz-guyton resonance theory of frequency tuning in the cochlea.

Quantitative reappraisal of the helmholtz-guyton resonance theory of frequency tuning in the cochlea.

Quantitative reappraisal of the helmholtz-guyton resonance theory of frequency tuning in the cochlea.

To explore the fundamental biomechanics of sound frequency transduction in the cochlea, a two-dimensional analytical model of the basilar membrane was constructed from first principles. Quantitative analysis showed that axial forces along the membrane are negligible, condensing the problem to a set of ordered one-dimensional models in the radial dimension, for which all parameters can be specified from experimental data. Solutions of the radial models for asymmetrical boundary conditions produce realistic deformation patterns. The resulting second-order differential equations, based on the original concepts of Helmholtz and Guyton, and including viscoelastic restoring forces, predict a frequency map and amplitudes of deflections that are consistent with classical observations. They also predict the effects of an observation hole drilled in the surrounding bone, the effects of curvature of the cochlear spiral, as well as apparent traveling waves under a variety of experimental conditions. A quantitative rendition of the classical Helmholtz-Guyton model captures the essence of cochlear mechanics and unifies the competing resonance and traveling wave theories.

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