推断神经元之间的功能连接。

Inferring functional connections between neurons.

作者信息

Stevenson Ian H, Rebesco James M, Miller Lee E, Körding Konrad P

机构信息

Department of Physiology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611, USA.

出版信息

Curr Opin Neurobiol. 2008 Dec;18(6):582-8. doi: 10.1016/j.conb.2008.11.005. Epub 2008 Dec 8.

DOI:10.1016/j.conb.2008.11.005

PMID:19081241

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2706692/

Abstract

A central question in neuroscience is how interactions between neurons give rise to behavior. In many electrophysiological experiments, the activity of a set of neurons is recorded while sensory stimuli or movement tasks are varied. Tools that aim to reveal underlying interactions between neurons from such data can be extremely useful. Traditionally, neuroscientists have studied these interactions using purely descriptive statistics (cross-correlograms or joint peri-stimulus time histograms). However, the interpretation of such data is often difficult, particularly as the number of recorded neurons grows. Recent research suggests that model-based, maximum likelihood methods can improve these analyses. In addition to estimating neural interactions, application of these techniques has improved decoding of external variables, created novel interpretations of existing electrophysiological data, and may provide new insight into how the brain represents information.

摘要

神经科学中的一个核心问题是神经元之间的相互作用如何产生行为。在许多电生理实验中，当感觉刺激或运动任务发生变化时，会记录一组神经元的活动。旨在从这些数据中揭示神经元之间潜在相互作用的工具可能非常有用。传统上，神经科学家使用纯描述性统计方法（互相关图或联合刺激时间直方图）来研究这些相互作用。然而，对这些数据的解释往往很困难，尤其是随着记录的神经元数量增加。最近的研究表明，基于模型的最大似然方法可以改进这些分析。除了估计神经相互作用外，这些技术的应用还改善了对外部变量的解码，对现有的电生理数据产生了新的解释，并可能为大脑如何表示信息提供新的见解。

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