丘脑皮质电路和功能结构。

Thalamocortical Circuits and Functional Architecture.

机构信息

Neuroscience Research Center, Charité - Universitätsmedizin Berlin, 10117 Berlin, Germany.

Institute for Theoretical Biology, Humboldt-Universität zu Berlin, 10115 Berlin, Germany.

出版信息

Annu Rev Vis Sci. 2018 Sep 15;4:263-285. doi: 10.1146/annurev-vision-091517-034122. Epub 2018 Jun 1.

DOI:10.1146/annurev-vision-091517-034122

PMID:29856937

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7525828/

Abstract

The thalamocortical pathway is the main route of communication between the eye and the cerebral cortex. During embryonic development, thalamocortical afferents travel to L4 and are sorted by receptive field position, eye of origin, and contrast polarity (i.e., preference for light or dark stimuli). In primates and carnivores, this sorting involves numerous afferents, most of which sample a limited region of the binocular field. Devoting abundant thalamocortical resources to process a limited visual field has a clear advantage: It allows many stimulus combinations to be sampled at each spatial location. Moreover, the sampling efficiency can be further enhanced by organizing the afferents in a cortical grid for eye input and contrast polarity. We argue that thalamocortical interactions within this eye-polarity grid can be used to represent multiple stimulus combinations found in nature and to build an accurate cortical map for multidimensional stimulus space.

摘要

丘脑皮质通路是眼睛和大脑皮层之间的主要通讯途径。在胚胎发育过程中，丘脑皮质传入纤维到达 L4，并根据感受野位置、眼起源和对比极性（即对光或暗刺激的偏好）进行分类。在灵长类动物和食肉动物中，这种分类涉及到大量的传入纤维，其中大多数纤维样本是双眼视野的有限区域。将丰富的丘脑皮质资源用于处理有限的视野具有明显的优势：它允许在每个空间位置上对许多刺激组合进行采样。此外，通过在眼输入和对比度极性的皮质网格中组织传入纤维，可以进一步提高采样效率。我们认为，这种眼极性网格内的丘脑皮质相互作用可用于表示自然界中发现的多种刺激组合，并为多维刺激空间构建准确的皮质图。

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