利用峰间间隔量化温度编码神经元中噪声对尖峰序列的影响。
Using interspike intervals to quantify noise effects on spike trains in temperature encoding neurons.
出版信息
Cogn Neurodyn. 2010 Sep;4(3):199-206. doi: 10.1007/s11571-010-9112-2. Epub 2010 Apr 27.
Abstract
This paper examines how noise interacts with the non-linear dynamical mechanisms of neuronal stimulus. We study the spike trains generated by a minimal Hodgkin-Huxley type model of a cold receptor neuron. The distributions of interspike intervals(ISIs) of purely deterministic simulations exhibit considerable differences compared to the noisy ones. We quantify the effect of noise using ISI return plots and the ISI-distance recently proposed by Kreuz et al. (J Neurosci Meth, 165:151-161, 2007). It is shown that the spike trains of a cold receptor neuron are more strongly affected by noise for low temperatures than for high temperatures. This trend is also observed in both regimes of cold receptors: tonic firing(which occurs for low and high temperatures) and bursting (which occurs for intermediate temperatures).
摘要
本文研究了噪声如何与神经元刺激的非线性动力学机制相互作用。我们研究了由冷受体神经元的最简 Hodgkin-Huxley 型模型产生的尖峰序列。与噪声相比,纯确定性模拟的尖峰间间隔(ISI)分布存在很大差异。我们使用 ISI 回报图和 Kreuz 等人最近提出的 ISI-距离(J Neurosci Meth,165:151-161,2007)来量化噪声的影响。结果表明,低温下冷受体神经元的尖峰序列受噪声的影响比高温下更大。这种趋势在冷受体的两个区域都有观察到:持续放电(发生在低温和高温时)和爆发(发生在中间温度时)。
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