丘脑网状核神经元的变化检测

Change detection by thalamic reticular neurons.

作者信息

Yu Xiong-Jie, Xu Xin-Xiu, He Shigang, He Jufang

机构信息

CAS-Hong Kong Joint Research Laboratory for Visuo-Auditory Integration, Institute of Biophysics, Chinese Academy of Sciences, Beijing, China.

出版信息

Nat Neurosci. 2009 Sep;12(9):1165-70. doi: 10.1038/nn.2373. Epub 2009 Aug 16.

DOI:10.1038/nn.2373

PMID:19684591

Abstract

The thalamic reticular nucleus (TRN) is thought to function in the attentional searchlight. We analyzed the detection of deviant acoustic stimuli by TRN neurons and the consequences of deviance detection on the TRN target, the medial geniculate body (MGB) of the rat. TRN neurons responded more strongly to pure-tone stimuli presented as deviant stimuli (low appearance probability) than those presented as standard stimuli (high probability) (deviance-detection index = 0.321). MGB neurons also showed deviance detection in this procedure, albeit to a smaller extent (deviance-detection index = 0.154). TRN neuron deviance detection either enhanced (14 neurons) or suppressed (27 neurons) MGB neuronal responses to a probe stimulus. Both effects were neutralized by inactivation of the auditory TRN. Deviance modulation effects were cross-modal. Deviance detection probably causes TRN neurons to transiently deactivate surrounding TRN neurons in response to a fresh stimulus, altering auditory thalamus responses and inducing attention shift.

摘要

丘脑网状核（TRN）被认为在注意力搜索中发挥作用。我们分析了TRN神经元对异常听觉刺激的检测以及异常检测对TRN靶标——大鼠内侧膝状体（MGB）的影响。与呈现为标准刺激（高概率）的纯音刺激相比，TRN神经元对呈现为异常刺激（低出现概率）的纯音刺激反应更强（异常检测指数 = 0.321）。在此过程中，MGB神经元也表现出异常检测，尽管程度较小（异常检测指数 = 0.154）。TRN神经元的异常检测增强了（14个神经元）或抑制了（27个神经元）MGB神经元对探测刺激的反应。这两种效应都通过听觉TRN的失活而被抵消。异常调制效应是跨模态的。异常检测可能导致TRN神经元在对新刺激做出反应时短暂地使周围的TRN神经元失活，改变听觉丘脑的反应并引起注意力转移。

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Corticothalamic synchronization leads to c-fos expression in the auditory thalamus.皮质丘脑同步化导致听觉丘脑c-fos表达。

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丘脑网状核神经元的变化检测

Change detection by thalamic reticular neurons.

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