在躁狂状态下大脑复杂性增加。

Brain complexity increases in mania.

作者信息

Bahrami Bahador, Seyedsadjadi Reza, Babadi Baktash, Noroozian Maryam

机构信息

Roozbeh Psychiatry Hospital, Tehran University of Medical Sciences, Tehran, Iran.

出版信息

Neuroreport. 2005 Feb 8;16(2):187-91. doi: 10.1097/00001756-200502080-00025.

DOI:10.1097/00001756-200502080-00025

PMID:15671875

Abstract

An important challenge in measuring whole brain activation is to develop a measure that could distinguish between normal and abnormal mood states. The application of chaos theory and non-linear dynamics to problems in biological sciences has resulted in a growing body of advancements and the notion of brain as a complex, non-linear system has attracted physicists, mathematicians, biologists and psychologists alike. To search for a correlation between alterations in chaotic brain states and mood disorders, we compared the fractal dimension of the electroencephalographic (EEG) signal in patients going through a manic episode of bipolar mood disorder (BMD) type I to a control group of healthy adults and showed that the EEG fractal dimension is significantly augmented in our patients. Thus, for the first time, we draw a clear objective distinction between normal and abnormal mood and associated brain states.

摘要

测量全脑激活的一个重要挑战是开发一种能够区分正常和异常情绪状态的测量方法。混沌理论和非线性动力学在生物科学问题中的应用带来了越来越多的进展，大脑作为一个复杂的非线性系统的概念吸引了物理学家、数学家、生物学家和心理学家。为了寻找混沌脑状态改变与情绪障碍之间的相关性，我们将经历I型双相情感障碍（BMD）躁狂发作的患者的脑电图（EEG）信号的分形维数与一组健康成年人的对照组进行了比较，结果显示我们的患者的EEG分形维数显著增加。因此，我们首次在正常和异常情绪及相关脑状态之间划出了明确的客观界限。

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在躁狂状态下大脑复杂性增加。

Brain complexity increases in mania.

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