跨频率相位同步：记忆匹配与注意力的一种脑机制

Cross-frequency phase synchronization: a brain mechanism of memory matching and attention.

作者信息

Sauseng Paul, Klimesch Wolfgang, Gruber Walter R, Birbaumer Niels

机构信息

Department of Psychology, University of Salzburg, Hellbrunnerstrasse 34, Salzburg, Austria.

出版信息

Neuroimage. 2008 Mar 1;40(1):308-17. doi: 10.1016/j.neuroimage.2007.11.032. Epub 2007 Dec 3.

DOI:10.1016/j.neuroimage.2007.11.032

PMID:18178105

Abstract

Spatial attention amplifies the neural response, i.e. spike rates, brain metabolism, and oscillatory activity at gamma frequency (beyond 30 Hz). In this study we show that when a visual target is attended enhanced synchrony between gamma phase (30 to 50 Hz) and theta phase (4 to 7 Hz), representing bottom-up and top-down activity, respectively, can be observed. This is interpreted as memory matching between incoming visual information and stored (top-down) information. The results highlight the function of oscillatory brain activity in the integration of memory and attention processes. This seems to be true in particular for theta oscillations showing increased interregional phase-coupling. We conclude that memory information is stored within a distributed theta network and it is matched with an incoming sensory trace at posterior brain areas.

摘要

空间注意力会增强神经反应，即放电率、大脑代谢以及伽马频率（超过30赫兹）的振荡活动。在本研究中，我们表明，当关注一个视觉目标时，可以观察到伽马相位（30至50赫兹）和theta相位（4至7赫兹）之间增强的同步性，分别代表自下而上和自上而下的活动。这被解释为传入视觉信息与存储的（自上而下）信息之间的记忆匹配。结果突出了振荡性大脑活动在记忆和注意力过程整合中的作用。这似乎尤其适用于显示区域间相位耦合增加的theta振荡。我们得出结论，记忆信息存储在一个分布式theta网络中，并与后脑区域传入的感觉痕迹相匹配。

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跨频率相位同步：记忆匹配与注意力的一种脑机制

Cross-frequency phase synchronization: a brain mechanism of memory matching and attention.

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