依赖音色的听觉流分离涉及左侧听觉皮层。

Auditory stream segregation relying on timbre involves left auditory cortex.

作者信息

Deike Susann, Gaschler-Markefski Birgit, Brechmann André, Scheich Henning

机构信息

Leibniz Institute for Neurobiology, Brenneckestr. 6, 39118 Magdeburg, Germany.

出版信息

Neuroreport. 2004 Jun 28;15(9):1511-4. doi: 10.1097/01.wnr.0000132919.12990.34.

DOI:10.1097/01.wnr.0000132919.12990.34

PMID:15194885

Abstract

An important aspect of auditory scene analysis is sequential grouping of sounds that are similar to one another in preference to sounds that follow one another. This grouping problem is captured by stream segregation tasks with alternating distinct sounds. We examined human auditory cortex activity with low noise fMRI in a stream segregation experiment relying on timbre differences of alternating harmonic tones (organ-like and trumpet-like). We found that stream segregation performance in comparison to monitoring a non-separable control stream increased activation exclusively in left auditory cortex and particularly in posterior areas. Our results suggest that left auditory cortex is selectively involved in this complex sequential task although the available cue for sequential grouping was timbre, usually attributed to right hemisphere analysis.

摘要

听觉场景分析的一个重要方面是对彼此相似的声音进行顺序分组，而不是对相继出现的声音进行分组。这种分组问题可以通过具有交替不同声音的流分离任务来体现。我们在一项流分离实验中，利用低噪声功能磁共振成像（fMRI）研究了人类听觉皮层的活动，该实验依赖于交替谐波音调（类似管风琴和类似小号）的音色差异。我们发现，与监测不可分离的控制流相比，流分离任务的表现仅增加了左侧听觉皮层的激活，特别是在后部区域。我们的结果表明，尽管用于顺序分组的可用线索是音色，而音色通常归因于右半球分析，但左侧听觉皮层选择性地参与了这项复杂的顺序任务。

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依赖音色的听觉流分离涉及左侧听觉皮层。

Auditory stream segregation relying on timbre involves left auditory cortex.

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