Something in Our Ears Is Oscillating, but What? A Modeller's View of Efforts to Model Spontaneous Emissions.

IF 2.4 3区 医学 Q3 NEUROSCIENCES
Hero P Wit, Andrew Bell
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Abstract

When David Kemp discovered "spontaneous ear noise" in 1978, it opened up a whole new perspective on how the cochlea works. The continuous tonal sound emerging from most healthy human ears, now called spontaneous otoacoustic emissions or SOAEs, was an unmistakable sign that our hearing organ must be considered an active detector, not just a passive microphone, just as Thomas Gold had speculated some 30 years earlier. Clearly, something is oscillating as a byproduct of that sensitive inbuilt detector, but what exactly is it? Here, we give a chronological account of efforts to model SOAEs as some form of oscillator, and at intervals, we illustrate key concepts with numerical simulations. We find that after many decades there is still no consensus, and the debate extends to whether the oscillator is local, confined to discrete local sources on the basilar membrane, or global, in which an assembly of micro-mechanical elements and basilar membrane sections, coupled by inner ear fluid, interact over a wide region. It is also undecided whether the cochlear oscillator is best described in terms of the well-known Van der Pol oscillator or the less familiar Duffing or Hopf oscillators. We find that irregularities play a key role in generating the emissions. This paper is not a systematic review of SOAEs and their properties but more a historical survey of the way in which various oscillator configurations have been applied to modelling human ears. The conclusion is that the difference between the local and global approaches is not clear-cut, and they are probably not mutually exclusive concepts. Nevertheless, when one sees how closely human SOAEs can be matched to certain arrangements of oscillators, Gold would no doubt say we are on the right track.

Abstract Image

我们耳朵里的东西在振动,但振动的是什么?从建模者的角度看模拟自发排放的努力。
1978 年,戴维-肯普(David Kemp)发现了 "自发耳声",这为我们了解耳蜗的工作原理打开了全新的视角。正如托马斯-戈尔德(Thomas Gold)在大约 30 年前推测的那样,从大多数健康人耳中发出的连续音调声(现在称为自发耳声发射或 SOAEs)是一个明确无误的信号,表明我们的听觉器官必须被视为一个主动探测器,而不仅仅是一个被动麦克风。很明显,作为这个敏感的内置探测器的副产品,有什么东西在振荡,但它到底是什么呢?在此,我们按时间顺序介绍了将 SOAE 作为某种形式的振荡器进行建模的努力,并每隔一段时间用数值模拟来说明关键概念。我们发现,在几十年后的今天,人们仍未达成共识,争论的焦点在于振荡器是局限于基底膜上离散的局部振荡源的局部振荡器,还是由微机械元件和基底膜部分组成的、由内耳流体耦合的、在广泛区域内相互作用的整体振荡器。至于耳蜗振荡器是用著名的范德尔波尔振荡器,还是用人们不太熟悉的达芬振荡器或霍普夫振荡器来描述,目前还没有定论。我们发现,不规则性在产生发射中起着关键作用。本文并不是对 SOAE 及其特性的系统回顾,而是对各种振荡器配置应用于人耳建模方式的历史考察。结论是,局部方法和全局方法之间的区别并不明显,它们可能并不是相互排斥的概念。尽管如此,当我们看到人类的 SOAE 与振荡器的某些排列方式如此接近时,戈尔德无疑会说我们走在了正确的道路上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.10
自引率
12.50%
发文量
57
审稿时长
6-12 weeks
期刊介绍: JARO is a peer-reviewed journal that publishes research findings from disciplines related to otolaryngology and communications sciences, including hearing, balance, speech and voice. JARO welcomes submissions describing experimental research that investigates the mechanisms underlying problems of basic and/or clinical significance. Authors are encouraged to familiarize themselves with the kinds of papers carried by JARO by looking at past issues. Clinical case studies and pharmaceutical screens are not likely to be considered unless they reveal underlying mechanisms. Methods papers are not encouraged unless they include significant new findings as well. Reviews will be published at the discretion of the editorial board; consult the editor-in-chief before submitting.
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