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本文引用的文献

1
How to vocode: Using channel vocoders for cochlear-implant research.如何进行语音编码:使用声道语音编码器进行人工耳蜗研究。
J Acoust Soc Am. 2024 Apr 1;155(4):2407-2437. doi: 10.1121/10.0025274.
2
Programming Levels and Speech Perception in Pediatric Cochlear Implant Recipients With Enlarged Vestibular Aqueduct or GJB2 Mutation.儿童人工耳蜗植入患者中前庭水管扩大或 GJB2 突变患者的编程水平与言语感知
Otol Neurotol. 2023 Jun 1;44(5):e273-e280. doi: 10.1097/MAO.0000000000003879.
3
Predicting emotion perception abilities for cochlear implant users.预测人工耳蜗使用者的情绪感知能力。
Int J Audiol. 2023 Oct;62(10):946-954. doi: 10.1080/14992027.2022.2111611. Epub 2022 Sep 1.
4
Single-Channel Focused Thresholds Relate to Vowel Identification in Pediatric and Adult Cochlear Implant Listeners.单通道聚焦阈值与儿童和成人人工耳蜗植入者的元音识别有关。
Trends Hear. 2022 Jan-Dec;26:23312165221095364. doi: 10.1177/23312165221095364.
5
Emotional Responses to Non-Speech Sounds for Hearing-aid and Bimodal Cochlear-Implant Listeners.助听和双耳双模人工耳蜗使用者对非言语声音的情绪反应。
Trends Hear. 2022 Jan-Dec;26:23312165221083091. doi: 10.1177/23312165221083091.
6
Spectral Resolution Development in Children With Normal Hearing and With Cochlear Implants: A Review of Behavioral Studies.正常听力儿童和人工耳蜗植入儿童的频谱分辨率发展:行为研究综述。
J Speech Lang Hear Res. 2022 Apr 4;65(4):1646-1658. doi: 10.1044/2021_JSLHR-21-00307. Epub 2022 Feb 24.
7
The Relationship Between Impedance, Programming and Word Recognition in a Large Clinical Dataset of Cochlear Implant Recipients.在大型人工耳蜗植入受者临床数据集里,阻抗、编程和言语识别之间的关系。
Trends Hear. 2022 Jan-Dec;26:23312165211060983. doi: 10.1177/23312165211060983.
8
Spatial speech-in-noise performance in simulated single-sided deaf and bimodal cochlear implant users in comparison with real patients.模拟单侧聋和双模式人工耳蜗植入患者与真实患者的空间言语噪声性能比较。
Int J Audiol. 2023 Jan;62(1):30-43. doi: 10.1080/14992027.2021.2015633. Epub 2021 Dec 28.
9
Effects of Increasing the Overall Level or Fitting Hearing Aids on Emotional Responses to Sounds.提高整体听力水平或适配助听器对声音情绪反应的影响。
Trends Hear. 2021 Jan-Dec;25:23312165211049938. doi: 10.1177/23312165211049938.
10
Weighting of Prosodic and Lexical-Semantic Cues for Emotion Identification in Spectrally Degraded Speech and With Cochlear Implants.频谱减损语音和人工耳蜗语音中韵律和词汇语义线索的加权用于情感识别。
Ear Hear. 2021;42(6):1727-1740. doi: 10.1097/AUD.0000000000001057.

人工耳蜗模拟的频谱退化会减弱对环境声音的情绪反应。

Cochlear-implant simulated spectral degradation attenuates emotional responses to environmental sounds.

作者信息

Jahn Kelly N, Wiegand-Shahani Braden M, Moturi Vaishnavi, Kashiwagura Sean Takamoto, Doak Karlee R

机构信息

Department of Speech, Language, and Hearing, The University of Texas at Dallas, Richardson, TX, USA.

Callier Center for Communication Disorders, The University of Texas at Dallas, Dallas, TX, USA.

出版信息

Int J Audiol. 2025 May;64(5):518-524. doi: 10.1080/14992027.2024.2385552. Epub 2024 Aug 15.

DOI:10.1080/14992027.2024.2385552
PMID:39146030
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11833750/
Abstract

OBJECTIVE

Cochlear implants (CI) provide users with a spectrally degraded acoustic signal that could impact their auditory emotional experiences. This study evaluated the effects of CI-simulated spectral degradation on emotional valence and arousal elicited by environmental sounds.

DESIGN

Thirty emotionally evocative sounds were filtered through a noise-band vocoder. Participants rated the perceived valence and arousal elicited by each of the full-spectrum and vocoded stimuli. These ratings were compared across acoustic conditions (full-spectrum, vocoded) and as a function of stimulus type (unpleasant, neutral, pleasant).

STUDY SAMPLE

Twenty-five young adults (age 19 to 34 years) with normal hearing.

RESULTS

Emotional responses were less extreme for spectrally degraded (i.e., vocoded) sounds than for full-spectrum sounds. Specifically, spectrally degraded stimuli were perceived as more negative and less arousing than full-spectrum stimuli.

CONCLUSION

By meticulously replicating CI spectral degradation while controlling for variables that are confounded within CI users, these findings indicate that CI spectral degradation can compress the range of sound-induced emotion independent of hearing loss and other idiosyncratic device- or person-level variables. Future work will characterize emotional reactions to sound in CI users via objective, psychoacoustic, and subjective measures.

摘要

目的

人工耳蜗(CI)为使用者提供频谱退化的声学信号,这可能会影响他们的听觉情感体验。本研究评估了人工耳蜗模拟的频谱退化对环境声音引发的情感效价和唤醒水平的影响。

设计

通过噪声带声码器对30种具有情感唤起作用的声音进行滤波。参与者对全频谱和经声码处理的刺激所引发的感知效价和唤醒水平进行评分。对这些评分在声学条件(全频谱、经声码处理)之间以及作为刺激类型(不愉快、中性、愉快)的函数进行比较。

研究样本

25名听力正常的年轻成年人(年龄19至34岁)。

结果

频谱退化(即经声码处理)的声音所引发的情感反应比全频谱声音的情感反应不那么极端。具体而言,频谱退化的刺激比全频谱刺激被感知为更消极且唤醒水平更低。

结论

通过精心复制人工耳蜗的频谱退化,同时控制人工耳蜗使用者中混淆的变量,这些发现表明人工耳蜗的频谱退化可以压缩声音诱发情感的范围,而与听力损失以及其他特殊的设备或个人层面的变量无关。未来的工作将通过客观、心理声学和主观测量来描述人工耳蜗使用者对声音的情感反应。