重复短音诱发的听觉晚反应中波幅和潜伏期的时间进程。

The time course of the amplitude and latency in the auditory late response evoked by repeated tone bursts.

作者信息

Zhang Fawen, Eliassen James, Anderson Jill, Scheifele Peter, Brown David

机构信息

Department of Communication Sciences and Disorders, University of Cincinnati, OH, USA.

出版信息

J Am Acad Audiol. 2009 Apr;20(4):239-50. doi: 10.3766/jaaa.20.4.4.

DOI:10.3766/jaaa.20.4.4

PMID:19927696

Abstract

BACKGROUND

This study provides a detailed description of the time course of amplitude and latency in the auditory late response (ALR) elicited by repeated tone bursts.

RESEARCH DESIGN

Tone bursts (50 and 80 dB SPL) were presented via insert earphones in trains of ten with interstimulus intervals (ISIs) of 0.7 and 2 msec and an intertrain interval of 15 sec. Averages were derived independently for each tone burst within the train across the total number of train presentations.

STUDY SAMPLE

Participants were 14 normal-hearing young adults.

DATA COLLECTION AND ANALYSIS

Data were analyzed in terms of the amplitudes and latencies of the N1 and P2 waves of the ALR as well as the N1-P2 amplitude.

RESULTS

The N1-P2 amplitude was a more stable measure than the amplitude of individual N1 and P2 peaks. The N1-P2 amplitude was maximal for the first tone burst and decreased in a nonmonotonic pattern for the remainder of the tone bursts within a stimulus train. The amplitude decrement was dependent on stimulus intensity and ISI. The latencies of N1 and P2 were maximal for the first tone burst and reduced approximately 20% for the rest of the stimuli in a train. The time course of N1 and P2 latencies was not dependent on stimulus intensity and ISI.

CONCLUSIONS

The reduction of latency in the time course of the ALR might be related to the fact that neurons with shorter latencies had faster recovery speed from adaptation and/or refractoriness than those with longer latencies. This finding is meaningful in the context of future research to restore normal adaptation in abnormal hearing populations such as cochlear implant patients.

摘要

背景

本研究详细描述了由重复短纯音诱发的听觉晚反应（ALR）的波幅和潜伏期的时间进程。

研究设计

通过插入式耳机以10个短纯音为一组呈现短纯音（50和80 dB SPL），刺激间隔（ISI）为0.7和2毫秒，组间间隔为15秒。对每组内每个短纯音在所有组呈现过程中的总数进行独立平均。

研究样本

参与者为14名听力正常的年轻成年人。

数据收集与分析

根据ALR的N1和P2波的波幅和潜伏期以及N1 - P2波幅对数据进行分析。

结果

N1 - P2波幅比单个N1和P2波峰的波幅更稳定。N1 - P2波幅在第一个短纯音时最大，并在刺激组内其余短纯音中以非单调模式下降。波幅下降取决于刺激强度和ISI。N1和P2的潜伏期在第一个短纯音时最长，在一组中的其余刺激中减少约20%。N1和P2潜伏期的时间进程不依赖于刺激强度和ISI。

结论

ALR时间进程中潜伏期的缩短可能与潜伏期较短的神经元比潜伏期较长的神经元从适应和/或不应期恢复得更快这一事实有关。这一发现对于未来恢复诸如人工耳蜗植入患者等异常听力人群的正常适应能力的研究具有重要意义。

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重复短音诱发的听觉晚反应中波幅和潜伏期的时间进程。

The time course of the amplitude and latency in the auditory late response evoked by repeated tone bursts.

作者信息

机构信息

出版信息

BACKGROUND

RESEARCH DESIGN

STUDY SAMPLE

DATA COLLECTION AND ANALYSIS

RESULTS

CONCLUSIONS

背景

研究设计

研究样本

数据收集与分析

结果

结论

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