新生儿水平声音定位线索的处理

Processing of Horizontal Sound Localization Cues in Newborn Infants.

作者信息

Németh Renáta, Háden Gábor P, Török Miklós, Winkler István

机构信息

1Institute of Cognitive Neuroscience and Psychology, Research Centre for Natural Sciences, Hungarian Academy of Sciences, Budapest, Hungary; 2Department of Cognitive Science, Central European University, Budapest, Hungary; 3Institute for Logic, Language and Computation, University of Amsterdam, Amsterdam, The Netherlands; 4Department of Obstetrics-Gynaecology and Perinatal Intensive Care Unit, Military Hospital, Budapest, Hungary; and 5Institute of Psychology, University of Szeged, Szeged, Hungary.

出版信息

Ear Hear. 2015 Sep-Oct;36(5):550-6. doi: 10.1097/AUD.0000000000000160.

DOI:10.1097/AUD.0000000000000160

PMID:25815734

Abstract

OBJECTIVES

By measuring event-related brain potentials (ERPs), the authors tested the sensitivity of the newborn auditory cortex to sound lateralization and to the most common cues of horizontal sound localization.

DESIGN

Sixty-eight healthy full-term newborn infants were presented with auditory oddball sequences composed of frequent and rare noise segments in four experimental conditions. The authors tested in them the detection of deviations in the primary cues of sound lateralization (interaural time and level difference) and in actual sound source location (free-field and monaural sound presentation). ERP correlates of deviance detection were measured in two time windows.

RESULTS

Deviations in both primary sound localization cues and the ear of stimulation elicited a significant ERP difference in the early (90 to 140 msec) time window. Deviance in actual sound source location (the free-field condition) elicited a significant response in the late (290 to 340 msec) time window.

CONCLUSIONS

The early differential response may indicate the detection of a change in the respective auditory features. The authors suggest that the late differential response, which was only elicited by actual sound source location deviation, reflects the detection of location deviance integrating the various cues of sound source location. Although the results suggest that all of the tested binaural cues are processed by the neonatal auditory cortex, utilizing the cues for locating sound sources of these cues may require maturation and learning.

摘要

目的

通过测量事件相关脑电位（ERP），作者测试了新生儿听觉皮层对声音定位及水平声音定位最常见线索的敏感性。

设计

在四种实验条件下，向68名健康足月新生儿呈现由频繁和罕见噪声片段组成的听觉奇偶数序列。作者在他们身上测试了声音定位主要线索（耳间时间和水平差异）以及实际声源位置（自由场和单耳声音呈现）的偏差检测。在两个时间窗口中测量了偏差检测的ERP相关性。

结果

主要声音定位线索和刺激耳的偏差在早期（90至140毫秒）时间窗口中引起了显著的ERP差异。实际声源位置（自由场条件）的偏差在晚期（290至340毫秒）时间窗口中引起了显著反应。

结论

早期的差异反应可能表明对相应听觉特征变化的检测。作者认为，仅由实际声源位置偏差引起的晚期差异反应反映了整合声源位置各种线索的位置偏差检测。虽然结果表明所有测试的双耳线索都由新生儿听觉皮层处理，但利用这些线索定位声源可能需要成熟和学习。

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新生儿水平声音定位线索的处理

Processing of Horizontal Sound Localization Cues in Newborn Infants.

作者信息

机构信息

出版信息

OBJECTIVES

DESIGN

RESULTS

CONCLUSIONS

目的

设计

结果

结论

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