人类婴儿中耳、耳蜗及脑干反应中的耳部不对称性。

Ear asymmetries in middle-ear, cochlear, and brainstem responses in human infants.

作者信息

Keefe Douglas H, Gorga Michael P, Jesteadt Walt, Smith Lynette M

机构信息

Boys Town National Research Hospital, 555 North 30th Street, Omaha, Nebraska 68131, USA.

出版信息

J Acoust Soc Am. 2008 Mar;123(3):1504-12. doi: 10.1121/1.2832615.

DOI:10.1121/1.2832615

PMID:18345839

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2493569/

Abstract

In 2004, Sininger and Cone-Wesson examined asymmetries in the signal-to-noise ratio (SNR) of otoacoustic emissions (OAE) in infants, reporting that distortion-product (DP)OAE SNR was larger in the left ear, whereas transient-evoked (TE)OAE SNR was larger in the right. They proposed that cochlear and brainstem asymmetries facilitate development of brain-hemispheric specialization for sound processing. Similarly, in 2006 Sininger and Cone-Wesson described ear asymmetries mainly favoring the right ear in infant auditory brainstem responses (ABRs). The present study analyzed 2640 infant responses to further explore these effects. Ear differences in OAE SNR, signal, and noise were evaluated separately and across frequencies (1.5, 2, 3, and 4 kHz), and ABR asymmetries were compared with cochlear asymmetries. Analyses of ear-canal reflectance and admittance showed that asymmetries in middle-ear functioning did not explain cochlear and brainstem asymmetries. Current results are consistent with earlier studies showing right-ear dominance for TEOAE and ABR. Noise levels were higher in the right ear for OAEs and ABRs, causing ear asymmetries in SNR to differ from those in signal level. No left-ear dominance for DPOAE signal was observed. These results do not support a theory that ear asymmetries in cochlear processing mimic hemispheric brain specialization for auditory processing.

摘要

2004年，西宁格和科恩 - 韦森研究了婴儿耳声发射（OAE）信噪比（SNR）的不对称性，报告称畸变产物（DP）耳声发射的信噪比左耳更高，而瞬态诱发（TE）耳声发射的信噪比右耳更高。他们提出，耳蜗和脑干的不对称性促进了大脑半球在声音处理方面的专业化发展。同样，2006年西宁格和科恩 - 韦森描述了婴儿听觉脑干反应（ABR）中主要有利于右耳的耳不对称性。本研究分析了2640例婴儿的反应，以进一步探究这些影响。分别并跨频率（1.5、2、3和4千赫）评估了耳声发射信噪比、信号和噪声的耳间差异，并将听觉脑干反应的不对称性与耳蜗不对称性进行了比较。耳道反射率和导纳分析表明，中耳功能的不对称性并不能解释耳蜗和脑干的不对称性。目前的结果与早期研究一致，显示出瞬态诱发耳声发射和听觉脑干反应存在右耳优势。耳声发射和听觉脑干反应的右耳噪声水平更高，导致信噪比的耳间不对称性与信号水平的不对称性不同。未观察到畸变产物耳声发射信号存在左耳优势。这些结果不支持耳蜗处理中的耳不对称性模仿大脑半球在听觉处理方面专业化的理论。

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