听觉皮层。

The auditory cortex.

作者信息

Ehret G

机构信息

Abteilung Vergleichende Neurobiologie, Universität Ulm, Germany.

出版信息

J Comp Physiol A. 1997 Dec;181(6):547-57. doi: 10.1007/s003590050139.

DOI:10.1007/s003590050139

PMID:9449816

Abstract

The division of the auditory cortex into various fields, functional aspects of these fields, and neuronal coding in the primary auditory cortical field (AI) are reviewed with stress on features that may be common to mammals. On the basis of 14 topographies and clustered distributions of neuronal response characteristics in the primary auditory cortical field, a hypothesis is developed of how a certain complex acoustic pattern may be encoded in an equivalent spatial activity pattern in AI, generated by time-coordinated firing of groups of neurons. The auditory cortex, demonstrated specifically for AI, appears to perform sound analysis by synthesis, i.e. by combining spatially distributed coincident or time-coordinated neuronal responses. The dynamics of sounds and the plasticity of cortical responses are considered as a topic for research.

摘要

本文回顾了听觉皮层划分为不同区域的情况、这些区域的功能特点以及初级听觉皮层区（AI）中的神经元编码，重点关注哺乳动物可能共有的特征。基于初级听觉皮层区中神经元反应特征的14种拓扑结构和聚类分布，提出了一个假说，即特定的复杂声学模式如何在AI中由神经元群的时间协调放电产生的等效空间活动模式中进行编码。专门针对AI进行展示的听觉皮层似乎通过合成来执行声音分析，即通过组合空间分布的同时发生或时间协调的神经元反应。声音的动态变化和皮层反应的可塑性被视为一个研究课题。

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听觉皮层。

The auditory cortex.

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