发现神经元反应中的尖峰模式。

Discovering spike patterns in neuronal responses.

作者信息

Fellous Jean-Marc, Tiesinga Paul H E, Thomas Peter J, Sejnowski Terrence J

机构信息

Computational Neurobiology Laboratory, Howard Hughes Medical Institute, The Salk Institute for Biological Studies, La Jolla, California 92037, USA.

出版信息

J Neurosci. 2004 Mar 24;24(12):2989-3001. doi: 10.1523/JNEUROSCI.4649-03.2004.

DOI:10.1523/JNEUROSCI.4649-03.2004

PMID:15044538

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2928855/

Abstract

When a cortical neuron is repeatedly injected with the same fluctuating current stimulus (frozen noise) the timing of the spikes is highly precise from trial to trial and the spike pattern appears to be unique. We show here that the same repeated stimulus can produce more than one reliable temporal pattern of spikes. A new method is introduced to find these patterns in raw multitrial data and is tested on surrogate data sets. Using it, multiple coexisting spike patterns were discovered in pyramidal cells recorded from rat prefrontal cortex in vitro, in data obtained in vivo from the middle temporal area of the monkey (Buracas et al., 1998) and from the cat lateral geniculate nucleus (Reinagel and Reid, 2002). The spike patterns lasted from a few tens of milliseconds in vitro to several seconds in vivo. We conclude that the prestimulus history of a neuron may influence the precise timing of the spikes in response to a stimulus over a wide range of time scales.

摘要

当向一个皮层神经元反复注入相同的波动电流刺激（冻结噪声）时，每次试验中尖峰的时间高度精确，且尖峰模式似乎是独特的。我们在此表明，相同的重复刺激可以产生不止一种可靠的尖峰时间模式。引入了一种新方法来在原始多试验数据中找到这些模式，并在替代数据集上进行了测试。使用该方法，在体外记录的大鼠前额叶皮层的锥体细胞中、在从猴子颞中区体内获得的数据（Buracas等人，1998年）以及从猫外侧膝状体核（Reinagel和Reid，2002年）中发现了多种共存的尖峰模式。尖峰模式在体外持续几十毫秒，在体内持续几秒。我们得出结论，神经元的刺激前历史可能在很宽的时间尺度范围内影响其对刺激反应时尖峰的精确时间。

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