Complexity of EEG Signals in Schizophrenia Syndromes

GraphiCon'2019 Proceedings. Volume 2 Pub Date : 2019-11-11 DOI:10.30987/graphicon-2019-2-140-143

I. E. Kutepov, V. Krysko, A. Krysko, S. Pavlov, M. V. Zigalov, I. Papkova, O. Saltykova, T. Y. Yaroshenko, E. Krylova, T. V. Yakovleva, V. Dobriyan, N. Erofeev

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引用次数: 6

Abstract

In the present study, 45 patients with schizophrenia syndromes and 39 healthy subjects are studied with electroencephalogram (EEG) signals. The study groups were of different genders. For each of the two groups, the signals were analyzed using 16 EEG channels. Multiscale entropy, Lempel-Ziv complexity and Lyapunov exponent were used to study the chaotic signals. The data were compared for two groups of subjects. Entropy was compared for each of the 16 channels for all subjects. As a result, topographic images of brain areas were obtained, illustrating the entropy and complexity of Lempel-Ziv. Lempel-Ziv complexity was found to be more representative of the classification problem. The results will be useful for further development of EEG signal classification algorithms for machine learning. This study shows that EEG signals can be an effective tool for classifying participants with symptoms of schizophrenia and control group. It is suggested that this analysis may be an additional tool to help psychiatrists diagnose patients with schizophrenia.

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精神分裂症综合征脑电图信号的复杂性

本文对45例精神分裂症患者和39名健康者进行了脑电图(EEG)研究。研究小组的性别不同。对每一组的16个脑电信号通道进行分析。利用多尺度熵、Lempel-Ziv复杂度和Lyapunov指数对混沌信号进行了研究。对两组受试者的数据进行了比较。对所有受试者的16个通道中的每一个进行熵比较。结果得到了大脑区域的地形图像，说明了Lempel-Ziv的熵和复杂性。发现Lempel-Ziv复杂度更能代表分类问题。研究结果将为进一步开发用于机器学习的脑电信号分类算法提供参考。本研究表明脑电图信号可以作为一种有效的工具来区分有精神分裂症症状的参与者和对照组。有人建议，这种分析可能是帮助精神科医生诊断精神分裂症患者的额外工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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GraphiCon'2019 Proceedings. Volume 2

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