癫痫大脑的自组织临界性

S. Cranstoun, G. Worrell, J. Echauz, B. Litt
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引用次数: 3

摘要

临界性是复杂动力系统能够产生大量能量释放的特性。这种系统在自然界中的例子是地震、雪崩和火山。最近已经证明,当系统能量与同步神经元放电的程度相关时,整合-放电神经元网络也表现出这样的关键行为。我们检查了人类癫痫海马的电记录,并证明该组织表现出自组织的临界性。这些发现可以解释最近发现的在癫痫发作之前发生在海马体中的能量爆发,并可能将它们与整合-激活模型联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Self-organized criticality in the epileptic brain
Criticality is a property of complex dynamical systems that can produce large energy release. Examples in nature of such systems are earthquakes, avalanches and volcanoes. It has been recently demonstrated that networks of integrate-and-fire neurons also exhibit such critical behavior where the system energy is related to the degree of synchronized neuronal firing. We have examined electrographic recordings from human epileptic hippocampus and demonstrate that this tissue exhibits self-organized criticality. These findings may explain energy bursting recently found to occur prior to epileptic seizures in the hippocampus and may connect them to integrate-and-fire models.
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