Buzsáki György, Watson Brendon O
NYU Neuroscience Institute, School of Medicine, New York University, New York, NY 10016, USA.
Dialogues Clin Neurosci. 2012 Dec;14(4):345-67. doi: 10.31887/DCNS.2012.14.4/gbuzsaki.
The perpetual activity of the cerebral cortex is largely supported by the variety of oscillations the brain generates, spanning a number of frequencies and anatomical locations, as well as behavioral correlates. First, we review findings from animal studies showing that most forms of brain rhythms are inhibition-based, producing rhythmic volleys of inhibitory inputs to principal cell populations, thereby providing alternating temporal windows of relatively reduced and enhanced excitability in neuronal networks. These inhibition-based mechanisms offer natural temporal frames to group or "chunk" neuronal activity into cell assemblies and sequences of assemblies, with more complex multi-oscillation interactions creating syntactical rules for the effective exchange of information among cortical networks. We then review recent studies in human psychiatric patients demonstrating a variety alterations in neural oscillations across all major psychiatric diseases, and suggest possible future research directions and treatment approaches based on the fundamental properties of brain rhythms.
大脑皮层的持续活动在很大程度上得益于大脑产生的各种振荡,这些振荡涵盖了多个频率和解剖位置,以及行为关联。首先,我们回顾动物研究的结果,这些结果表明,大多数形式的脑节律都是基于抑制的,会产生对主要细胞群体的节律性抑制性输入,从而在神经元网络中提供相对降低和增强兴奋性的交替时间窗口。这些基于抑制的机制提供了自然的时间框架,将神经元活动分组或“分块”成细胞集合以及集合序列,更复杂的多振荡相互作用为皮层网络之间的有效信息交换创造了句法规则。然后,我们回顾了近期针对人类精神疾病患者的研究,这些研究表明,在所有主要精神疾病中神经振荡都存在各种改变,并基于脑节律的基本特性提出了未来可能的研究方向和治疗方法。