Hearing deficits and adaptation for those with unilateral hearing loss under reverberation

IF 0.6 Q4 ACOUSTICS

Acoustical Science and Technology Pub Date : 2023-11-01 DOI:10.1250/ast.44.419

Shinya Tsuji, Takayuki Arai

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引用次数: 0

Abstract

Individuals with unilateral hearing loss (UHL) experience difficulties in particular situations such as hearing in the presence of noise. Reverberation decreases speech intelligibility and has different effects on music for those with hearing loss. However, the effect of reverberation on UHL remains unclear. In this study, the degree of temporal resolution, the ability to hear out a melody and speech from a masker, and the degree of spatial release from masking (SRM) under a reverberation time of 1.6 s were measured under three hearing conditions namely, binaural normal hearing (BNH), and monaural normal hearing (MNH), and unilateral hearing loss (UHL). Under reverberation, participants with UHL required a higher sound pressure level of the target melody and speech to hear out from the masker and indicated a lower degree of SRM than those with BNH. However, participants with UHL showed improvements in listening effort in the gap detection task, thresholds in the melody matching and speech intelligibility task, and the degree of SRM compared with participants with MNH. Furthermore, there was a positive correlation between the degree of SRM in the speech task and the duration of UHL. Results suggest that the hearing of people with UHL could be improved by the adaptive contribution of some monaural cues under reverberation.

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混响条件下单侧听力损失患者的听力缺陷与适应

患有单侧听力损失(UHL)的个体在特定情况下会遇到困难，例如在存在噪音的情况下听力。混响会降低语音清晰度，对听力损失的人来说，对音乐的影响也不同。然而，混响对UHL的影响尚不清楚。本研究分别在双耳正常听力(BNH)、单耳正常听力(MNH)和单侧听力损失(UHL)三种听力条件下，测量了在混响时间为1.6 s的情况下，掩蔽器的时间分辨度、听出旋律和语音的能力以及掩蔽器的空间释放度(SRM)。在混响条件下，UHL的参与者需要更高的目标旋律和语音的声压水平才能听到面罩，并且SRM程度低于BNH的参与者。然而，与MNH组相比，UHL组在间隙检测任务的听力努力、旋律匹配和语音可理解性任务的阈值以及SRM程度上都有所提高。此外，语音任务中SRM的程度与UHL的持续时间呈正相关。结果表明，某些单声信号在混响条件下的适应性贡献可以改善UHL患者的听力。

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

Acoustical Science and Technology ACOUSTICS-

CiteScore

1.60

自引率

14.30%

发文量

期刊介绍： Acoustical Science and Technology(AST) is a bimonthly open-access journal edited by the Acoustical Society of Japan and was established in 1980 as the Journal of Acoustical Society of Japan (E). The title of the journal was changed to the current title in 2001. AST publishes about 100 high-quality articles (including papers, technical reports, and acoustical letters) each year. The scope of the journal covers all fields of acoustics, both scientific and technological, including (but not limited to) the following research areas. Psychological and Physiological Acoustics Speech Ultrasonics Underwater Acoustics Noise and Vibration Electroacoustics Musical Acoustics Architectural Acoustics Sonochemistry Acoustic Imaging.