Interaction between neocortical and hippocampal networks via slow oscillations.

Thalamus & related systems Pub Date : 2005-12-01 DOI:10.1017/S1472928807000258
Anton Sirota, György Buzsáki
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引用次数: 0

Abstract

Both the thalamocortical and limbic systems generate a variety of brain state-dependent rhythms but the relationship between the oscillatory families is not well understood. Transfer of information across structures can be controlled by the offset oscillations. We suggest that slow oscillation of the neocortex, which was discovered by Mircea Steriade, temporally coordinates the self-organized oscillations in the neocortex, entorhinal cortex, subiculum and hippocampus. Transient coupling between rhythms can guide bidirectional information transfer among these structures and might serve to consolidate memory traces.

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通过缓慢振荡实现新皮层与海马网络之间的互动
丘脑皮层系统和边缘系统都会产生多种依赖于大脑状态的节律,但这些振荡家族之间的关系却不甚明了。信息在不同结构间的传递可由偏移振荡控制。我们认为,米尔恰-斯特里亚德(Mircea Steriade)发现的新皮层慢振荡在时间上协调了新皮层、内视网膜皮层、子网膜和海马的自组织振荡。节律之间的瞬时耦合可以引导这些结构之间的双向信息传递,并可能起到巩固记忆痕迹的作用。
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Thalamus & related systems
Thalamus & related systems
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Evidence for electrical synapses between neurons of the nucleus reticularis thalami in the adult brain in vitro. Anterior thalamic lesions produce chronic and profuse transcriptional de-regulation in retrosplenial cortex: A model of retrosplenial hypoactivity and covert pathology. Visual stimuli modulate precise synchronous firing within the thalamus. Interaction between neocortical and hippocampal networks via slow oscillations. REORGANIZATION OF BARREL CIRCUITS LEADS TO THALAMICALLY-EVOKED CORTICAL EPILEPTIFORM ACTIVITY.
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