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植入深度对模拟人工耳蜗和单侧耳聋在噪声中空间言语感知的影响。

Effects of insertion depth on spatial speech perception in noise for simulations of cochlear implants and single-sided deafness.

作者信息

Zhou Xiaoqing, Li Huajun, Galvin John J, Fu Qian-Jie, Yuan Wei

机构信息

a Department of Otolaryngology , Southwest Hospital, Third Military Medical University , Gao Tan Yan Street, Shaping Ba District , Chongqing , 400038 , China and.

b Department of Head and Neck Surgery , David Geffen School of Medicine, University of California Los Angeles , Los Angeles , CA 90095 , USA.

出版信息

Int J Audiol. 2017;56(sup2):S41-S48. doi: 10.1080/14992027.2016.1197426. Epub 2016 Jul 1.

DOI:10.1080/14992027.2016.1197426
PMID:27367147
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5203963/
Abstract

OBJECTIVE

This study evaluated the effects of insertion depth on spatial speech perception in noise for simulations of cochlear implants (CI) and single-sided deafness (SSD).

DESIGN

Mandarin speech recognition thresholds were adaptively measured in five listening conditions and four spatial configurations. The original signal was delivered to the left ear. The right ear received either no input, one of three CI simulations in which the insertion depth was varied, or the original signal. Speech and noise were presented at either front, left, or right.

STUDY SAMPLE

Ten Mandarin-speaking NH listeners with pure-tone thresholds less than 20 dB HL.

RESULTS

Relative to no input in the right ear, the CI simulations provided significant improvements in head shadow benefit for all insertion depths, as well as better spatial release of masking (SRM) for the deepest simulated insertion. There were no significant improvements in summation or squelch for any of the CI simulations.

CONCLUSIONS

The benefits of cochlear implantation were largely limited to head shadow, with some benefit for SRM. The greatest benefits were observed for the deepest simulated CI insertion, suggesting that reducing mismatch between acoustic and electric hearing may increase the benefit of cochlear implantation.

摘要

目的

本研究评估了植入深度对模拟人工耳蜗(CI)和单侧耳聋(SSD)在噪声中空间语音感知的影响。

设计

在五种聆听条件和四种空间配置下,自适应测量普通话语音识别阈值。原始信号输送到左耳。右耳要么不接收输入,要么接收三种模拟人工耳蜗中的一种(其中植入深度不同),要么接收原始信号。语音和噪声分别从前方、左侧或右侧呈现。

研究样本

十名纯音阈值低于20 dB HL的讲普通话的正常听力受试者。

结果

相对于右耳不接收输入,所有植入深度的模拟人工耳蜗在头影效应方面均有显著改善,并且对于最深的模拟植入深度,在空间掩蔽释放(SRM)方面表现更好。对于任何模拟人工耳蜗,在总和或静噪方面均无显著改善。

结论

人工耳蜗植入的益处主要限于头影效应,对空间掩蔽释放有一定益处。对于最深的模拟人工耳蜗植入深度,观察到最大益处,这表明减少声学和电听觉之间的不匹配可能会增加人工耳蜗植入的益处。

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