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Inserting the Effects of Ion Channels in Mean Field Models: Application to generation of anesthetic slow waves

机译：在平均场模型中插入离子通道的影响：在麻醉慢波产生中的应用

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In this paper, effects of general anesthesia on the electroencephalogram (EEG) has been modeled with an enhanced physiological mean field theory of electrocortical activity. Enhancement is done by inserting two intrinsic ion channels (IKNaand IAR) in Liley's mean field model. In addition to excitatory and inhibitory synapses, intrinsic ion channels can generate or manipulate the brain rhythms. IKNaand IARcan produce slow brain rhythms (delta band frequency) in deep levels of anesthesia. We represent the activities of each mentioned ion channels by cascading a nonlinear function and a first order low pass filter. Linearized and numerical solutions of the modified model show that the power spectrum densities of simulated EEG signals are more closed to reality.

机译：在本文中，全身麻醉对脑电图（EEG）的影响已使用增强的皮层电活动的生理平均场理论进行了建模。通过在Liley的平均场模型中插入两个固有离子通道（I KNa 和I AR ）来进行增强。除了兴奋性和抑制性突触外，固有的离子通道还可以产生或操纵脑节律。 I KNa 和I AR 在深度麻醉时可产生缓慢的脑节律（三角带频率）。我们通过级联非线性函数和一阶低通滤波器来表示每个提到的离子通道的活动。改进模型的线性和数值解表明，模拟的脑电信号的功率谱密度更接近现实。

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《》|2005年|P.378-381|共4页
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Ardekani; B.M.; Senhadji; L.; Shamsollahi; M.B.;
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中图分类工业技术;
关键词
Anesthesia; Delta Waves; Ion Channels; Mean Field Theory; Anesthesia; Delta Waves; Ion Channels; Mean Field Theory;

机译：麻醉; Delta波;离子通道;平均场论;麻醉; Delta波;离子通道;平均场论;

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4. Inserting the Effects of Ion Channels in Mean Field Models: Application to generation of anesthetic slow waves [C] . Ardekani B.M., Senhadji L., Shamsollahi M.B. International Conference on Computer as a Tool . 2005

机译：在平均场模型中插入离子通道的影响：应用于生成麻醉慢波
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Inserting the Effects of Ion Channels in Mean Field Models: Application to generation of anesthetic slow waves

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