豚鼠下丘对同时出现的谐波序列的反应以及下行控制失活的影响。

Responses in the inferior colliculus of the guinea pig to concurrent harmonic series and the effect of inactivation of descending controls.

作者信息

Nakamoto Kyle T, Shackleton Trevor M, Palmer Alan R

机构信息

College of Medicine, Northeastern Ohio Universities, 4209 State Rt. 44, P.O. Box 95, Rootstown, OH 44272-0095, USA.

出版信息

J Neurophysiol. 2010 Apr;103(4):2050-61. doi: 10.1152/jn.00451.2009. Epub 2010 Feb 10.

DOI:10.1152/jn.00451.2009

PMID:20147418

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2853265/

Abstract

One of the fundamental questions of auditory research is how sounds are segregated because, in natural environments, multiple sounds tend to occur at the same time. Concurrent sounds, such as two talkers, physically add together and arrive at the ear as a single input sound wave. The auditory system easily segregates this input into a coherent perception of each of the multiple sources. A common feature of speech and communication calls is their harmonic structure and in this report we used two harmonic complexes to study the role of the corticofugal pathway in the processing of concurrent sounds. We demonstrate that, in the inferior colliculus (IC) of the anesthetized guinea pig, deactivation of the auditory cortex altered the temporal and/or the spike response to the concurrent, monaural harmonic complexes. More specifically, deactivating the auditory cortex altered the representation of the relative level of the complexes. This suggests that the auditory cortex modulates the representation of the level of two harmonic complexes in the IC. Since sound level is a cue used in the segregation of auditory input, the corticofugal pathway may play a role in this segregation.

摘要

听觉研究的基本问题之一是声音如何被分离，因为在自然环境中，多种声音往往同时出现。同时出现的声音，比如两个说话者的声音，在物理上叠加在一起，作为单一的输入声波到达耳朵。听觉系统能够轻松地将这种输入分离为对多个声源中每一个的连贯感知。语音和通讯叫声的一个共同特征是它们的谐波结构，在本报告中，我们使用两个谐波复合体来研究皮质传出通路在同时出现声音的处理过程中的作用。我们证明，在麻醉的豚鼠的下丘（IC）中，听觉皮层的失活改变了对同时出现的单耳谐波复合体的时间和/或尖峰反应。更具体地说，使听觉皮层失活改变了复合体相对水平的表征。这表明听觉皮层调节下丘中两个谐波复合体水平的表征。由于声级是用于分离听觉输入的一个线索，皮质传出通路可能在这种分离中发挥作用。

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