噪声中缺口的听觉诱发电位：老年人。

Auditory evoked response to gaps in noise: older adults.

机构信息

Department of Communication Sciences and Disorders, University of South Florida, Tampa, FL 33620, USA.

出版信息

Int J Audiol. 2011 Apr;50(4):211-25. doi: 10.3109/14992027.2010.526967.

DOI:10.3109/14992027.2010.526967

PMID:21385014

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4788511/

Abstract

OBJECTIVE

The objective of this study was to describe the auditory evoked response to silent gaps for a group of older adults using stimulus conditions identical to those used in psychophysical studies of gap detection.

DESIGN

The P1-N1-P2 response to the onsets of stimuli (markers) defining a silent gap for within-channel (spectrally identical markers) and across-channel (spectrally different markers) conditions was examined using four perceptually-equated gap durations.

STUDY SAMPLE

A group of 24 older adults (mean age = 63 years) with normal hearing or minimal hearing loss participated.

RESULTS

Older adults exhibited neural activation patterns that were qualitatively different and more frontally oriented than those observed in a previous study (Lister et al., 2007) of younger listeners. Older adults showed longer P2 latencies and larger P1 amplitudes than younger adults, suggesting relatively slower neural travel time and altered auditory inhibition/arousal by irrelevant stimuli.

CONCLUSION

Older adults appeared to recruit later-occurring T-complex-like generators for gap processing, compared to earlier-occurring T-complex-like generators by the younger group. Early and continued processing of channel cues with later processing of gap cues may represent the inefficiency of the aging auditory system and may contribute to poor speech understanding in noisy, real-world listening environments.

摘要

目的

本研究旨在描述一组老年受试者对无声间隔的听觉诱发电反应，使用与用于检测间隙的心理物理研究相同的刺激条件。

设计

使用四个感知等效的间隙持续时间，检查了用于通道内（频谱相同的标记）和通道间（频谱不同的标记）条件的无声间隙的刺激（标记）起始的 P1-N1-P2 响应。

研究样本

一组 24 名听力正常或听力损失最小的老年受试者参与了研究。

结果

老年受试者表现出的神经激活模式与之前一项对年轻听众的研究（Lister 等人，2007）观察到的模式在性质上不同，并且更偏向于额叶。与年轻受试者相比，老年受试者的 P2 潜伏期较长，P1 振幅较大，这表明神经传递时间相对较慢，以及对无关刺激的听觉抑制/唤醒作用发生改变。

结论

与年轻组相比，老年受试者似乎在处理间隙时会募集到后来发生的 T 复合体样发生器，而不是早期发生的 T 复合体样发生器。通道线索的早期和持续处理以及间隙线索的后期处理可能代表了衰老听觉系统的效率低下，并可能导致在嘈杂的现实环境中言语理解能力较差。

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