在虚拟导航过程中，灵长类动物海马体中基于注视信息、任务情境的空间表征。

Gaze-informed, task-situated representation of space in primate hippocampus during virtual navigation.

作者信息

Wirth Sylvia, Baraduc Pierre, Planté Aurélie, Pinède Serge, Duhamel Jean-René

机构信息

Centre de Neuroscience Cognitive, UMR 5229, CNRS and University of Lyon, Bron, France.

GIPSA-lab, UMR 5216, CNRS and University of Grenoble-Alpes, Saint Martin d'Hères, France.

出版信息

PLoS Biol. 2017 Feb 27;15(2):e2001045. doi: 10.1371/journal.pbio.2001045. eCollection 2017 Feb.

DOI:10.1371/journal.pbio.2001045

PMID:28241007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5328243/

Abstract

To elucidate how gaze informs the construction of mental space during wayfinding in visual species like primates, we jointly examined navigation behavior, visual exploration, and hippocampal activity as macaque monkeys searched a virtual reality maze for a reward. Cells sensitive to place also responded to one or more variables like head direction, point of gaze, or task context. Many cells fired at the sight (and in anticipation) of a single landmark in a viewpoint- or task-dependent manner, simultaneously encoding the animal's logical situation within a set of actions leading to the goal. Overall, hippocampal activity was best fit by a fine-grained state space comprising current position, view, and action contexts. Our findings indicate that counterparts of rodent place cells in primates embody multidimensional, task-situated knowledge pertaining to the target of gaze, therein supporting self-awareness in the construction of space.

摘要

为了阐明在灵长类等视觉物种的寻路过程中，注视是如何为心理空间的构建提供信息的，我们在猕猴在虚拟现实迷宫中寻找奖励时，联合考察了导航行为、视觉探索和海马体活动。对位置敏感的细胞也会对一个或多个变量做出反应，如头部方向、注视点或任务背景。许多细胞在看到（以及预期）单个地标时，会以视点或任务依赖的方式放电，同时在一组通向目标的行动中对动物的逻辑情境进行编码。总体而言，海马体活动最适合由包含当前位置、视野和行动背景的细粒度状态空间来描述。我们的研究结果表明，灵长类动物中与啮齿动物位置细胞相对应的细胞体现了与注视目标相关的多维度、任务情境知识，从而在空间构建中支持自我意识。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a9f2/5328243/b72441c7167f/pbio.2001045.g001.jpg

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在虚拟导航过程中，灵长类动物海马体中基于注视信息、任务情境的空间表征。

Gaze-informed, task-situated representation of space in primate hippocampus during virtual navigation.

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