Environmental Impacts on Spiking Properties in Hodgkin–Huxley Neuron with Direct Current Stimulus

Based on the well accepted Hodgkin--Huxley neuron model, the neuronal intrinsic excitability is studied when the neuron is subject to varying environmental temperatures, the typical impact for its regulating ways. With computer simulation, it is found that altering environmental temperature can impr...

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Veröffentlicht in:	Chinese physics letters 2009-11, Vol.26 (11), p.118701-118701
Hauptverfasser:	Chang-Qing, Yuan, Tong-Jun, Zhao, Yong, Zhan, Su-Hua, Zhang, Hui, Liu, Yu-Hong, Zhang
Format:	Artikel
Sprache:	eng
Schlagworte:	Environmental factors
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container_title	Chinese physics letters
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creator	Chang-Qing, Yuan Tong-Jun, Zhao Yong, Zhan Su-Hua, Zhang Hui, Liu Yu-Hong, Zhang
description	Based on the well accepted Hodgkin--Huxley neuron model, the neuronal intrinsic excitability is studied when the neuron is subject to varying environmental temperatures, the typical impact for its regulating ways. With computer simulation, it is found that altering environmental temperature can improve or inhibit the neuronal intrinsic excitability so as to influence the neuronal spiking properties. The impacts from environmental factors can be understood that the neuronal spiking threshold is essentially influenced by the fluctuations in the environment. With the environmental temperature varying, burst spiking is realized for the neuronal membrane voltage because of the environment-dependent spiking threshold. This burst induced by changes in spiking threshold is different from that excited by input currents or other stimulus.
doi_str_mv	10.1088/0256-307X/26/11/118701
format	Article
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title	Environmental Impacts on Spiking Properties in Hodgkin–Huxley Neuron with Direct Current Stimulus
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