大脑皮层内抑制的皮层地形图影响决策速度。

Cortical topography of intracortical inhibition influences the speed of decision making.

机构信息

Division of Biology, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Proc Natl Acad Sci U S A. 2012 Feb 21;109(8):3107-12. doi: 10.1073/pnas.1114250109. Epub 2012 Feb 6.

DOI:10.1073/pnas.1114250109

PMID:22315409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3286921/

Abstract

The neocortex contains orderly topographic maps; however, their functional role remains controversial. Theoretical studies have suggested a role in minimizing computational costs, whereas empirical studies have focused on spatial localization. Using a tactile multiple-choice reaction time (RT) task before and after the induction of perceptual learning through repetitive sensory stimulation, we extend the framework of cortical topographies by demonstrating that the topographic arrangement of intracortical inhibition contributes to the speed of human perceptual decision-making processes. RTs differ among fingers, displaying an inverted U-shaped function. Simulations using neural fields show the inverted U-shaped RT distribution as an emergent consequence of lateral inhibition. Weakening inhibition through learning shortens RTs, which is modeled through topographically reorganized inhibition. Whereas changes in decision making are often regarded as an outcome of higher cortical areas, our data show that the spatial layout of interaction processes within representational maps contributes to selection and decision-making processes.

摘要

大脑皮层包含有序的地形图谱；然而，它们的功能作用仍然存在争议。理论研究表明其在最小化计算成本方面具有作用，而实证研究则侧重于空间定位。通过在重复性感觉刺激引起知觉学习前后使用触觉多选反应时（RT）任务，我们通过证明皮层内抑制的地形排列有助于人类知觉决策过程的速度，扩展了皮层地形的框架。RT 在手指之间存在差异，呈倒 U 形函数。使用神经场的模拟表明，侧向抑制产生了倒 U 形 RT 分布。通过学习减弱抑制会缩短 RT，这可以通过地形上重新组织的抑制来建模。虽然决策的变化通常被认为是更高皮层区域的结果，但我们的数据表明，代表性地图内相互作用过程的空间布局有助于选择和决策过程。

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