Analysis of electric field effect on the excitability of minimum neuron model

TMS (Transcranial magnetic stimulation) is an effective method of cortex stimulation for the treatment of neurological diseases. Here we change the magnetic stimulation into external electric field form and add it in a minimum neuron model. Through detailed analysis of phase plane and bifurcation ty...

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Hauptverfasser:	Jin Qitao, Wang Jiang, Jia Qiuju, Deng Bin, Wei Xile, Che Yanqiu
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Action potential initial dynamics Bifurcation Electric fields Electric potential Encoding External electric field Firing Mathematical model Neurons Sub-threshold currents competition TMS
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creator	Jin Qitao Wang Jiang Jia Qiuju Deng Bin Wei Xile Che Yanqiu
description	TMS (Transcranial magnetic stimulation) is an effective method of cortex stimulation for the treatment of neurological diseases. Here we change the magnetic stimulation into external electric field form and add it in a minimum neuron model. Through detailed analysis of phase plane and bifurcation type, we obtain the nonlinear kinetics law of the firing pattern change derive from external electric field. Further we propose the idea of external electric field affect the different ion currents competition in sub-threshold. Finally the effect of external electric field on action potential initial dynamics was studied by which we can explain the physiological mechanism of TMS's effect on neural coding.
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subjects	Action potential initial dynamics Bifurcation Electric fields Electric potential Encoding External electric field Firing Mathematical model Neurons Sub-threshold currents competition TMS
title	Analysis of electric field effect on the excitability of minimum neuron model
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