中颞区缺乏视网膜感受野的预期重映射。

A lack of anticipatory remapping of retinotopic receptive fields in the middle temporal area.

机构信息

Department of Neurobiology, David Geffen School of Medicine at University of California Los Angeles, California 90095, USA.

出版信息

J Neurosci. 2011 Jul 20;31(29):10432-6. doi: 10.1523/JNEUROSCI.5589-10.2011.

DOI:10.1523/JNEUROSCI.5589-10.2011

PMID:21775588

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3160136/

Abstract

The middle temporal (MT) area has traditionally been thought to be a retinotopic area. However, recent functional magnetic resonance imaging and psychophysical evidence have suggested that human MT may have some spatiotopic processing. To gain an understanding of the neural mechanisms underlying this process, we recorded neurons from area MT in awake behaving animals performing a simple saccade task in which a spatially stable moving dot stimulus was presented for 500 ms in one of two locations: the presaccadic receptive field or the postsaccadic receptive field. MT neurons responded as if their receptive fields were purely retinotopic. When the stimulus was placed in the presaccadic receptive field, the response was elevated until the saccade took the stimulus out of the receptive field. When the stimulus was placed in the postsaccadic receptive field, the neuron only began its response after the end of the saccade. No evidence of presaccadic or anticipatory remapping was found. We conclude that gain fields are most likely to be responsible for the spatiotopic signal seen in area MT.

摘要

颞中（MT）区传统上被认为是一个视网膜定位区域。然而，最近的功能磁共振成像和心理物理学证据表明，人类 MT 可能具有一定的空间定位处理能力。为了了解这一过程的神经机制，我们在清醒的动物中记录了来自 MT 区域的神经元，这些动物在一个简单的扫视任务中执行任务，在两个位置之一呈现一个空间稳定的移动点刺激，持续 500 毫秒：前扫视视野或后扫视视野。MT 神经元的反应就好像它们的感受野是纯粹的视网膜定位。当刺激放置在前扫视视野中时，反应会升高，直到扫视将刺激带出视野。当刺激放置在后扫视视野中时，神经元只有在扫视结束后才开始反应。没有发现前扫视或预期重映射的证据。我们得出的结论是，增益场最有可能负责 MT 区域中看到的空间定位信号。

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