动态神经群模型控制癫痫发作脑电图

Proceedings. 2005 First International Conference on Neural Interface and Control, 2005. Pub Date : 2005-05-26 DOI:10.1109/ICNIC.2005.1499882

X. Tian, Zhenguo Xiao, X. Geng

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引用次数: 4

摘要

本研究利用Matlab/Simulink在中观水平上建立了脑干、皮层和丘脑回路之间的动态神经种群模型。利用模型输出对脑回路的电活动进行了模拟。输出信号是丘脑突触后电位的衍生物，在正常和癫痫发作的脑电图中都有反映。模拟癫痫发作的脑电图，然后在模型中通过对皮层或感官的额外扰动控制到正常水平。由于大脑活动自然是混沌的，所以用输出信号的相关维数来检测脑干功能障碍。

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Controlling epileptic seizures EEG with a dynamic neural population model

In this study a dynamic neural population model between brain stem, cortex and thalamus circuits is established on mesoscopic level using Matlab/Simulink. The electric activities in brain circuits are simulated with the model output. The output signals are the derivatives of postsynaptic potentials from thalamus, which are reflected in EEG for both normal and epileptic seizures cases. The epileptic seizures EEG are simulated and then controlled to normal level in the model via an added perturbation to the cortex or sensory. Because the brain activity is naturally chaotic, the correlation dimension of the output signal is used to test the brainstem dysfunction.

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Proceedings. 2005 First International Conference on Neural Interface and Control, 2005.

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