在学习形状识别任务后，视觉通路中活动的自上而下重组。

Top-down reorganization of activity in the visual pathway after learning a shape identification task.

作者信息

Sigman Mariano, Pan Hong, Yang Yihong, Stern Emily, Silbersweig David, Gilbert Charles D

机构信息

The Rockefeller University, New York, New York, USA.

出版信息

Neuron. 2005 Jun 2;46(5):823-35. doi: 10.1016/j.neuron.2005.05.014.

DOI:10.1016/j.neuron.2005.05.014

PMID:15924867

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1440484/

Abstract

Learning in shape identification led to global changes in activation across the entire visual pathway, as revealed with whole-brain fMRI. Following extensive training in a shape identification task, brain activity associated with trained shapes relative to the untrained shapes showed: (1) an increased level of activity in retinotopic cortex (RC), (2) a decrease in activation of the lateral occipital cortex (LO), and (3) a decrease in the dorsal attentional network. In addition, RC activations became more correlated (and LO activation, less correlated) with performance. When comparing target-present and target-absent trials within the trained condition, we observed a similar decrease in the dorsal attentional network but not in the visual cortices. These findings indicate a large-scale reorganization of activity in the visual pathway as a result of learning, with the RC becoming more involved (and the LO, less involved) and that these changes are triggered in a top-down manner depending on the perceptual task performed.

摘要

全脑功能磁共振成像显示，形状识别学习导致整个视觉通路的激活发生全局性变化。在形状识别任务中进行广泛训练后，与训练形状相关的大脑活动相对于未训练形状表现出：（1）视网膜拓扑皮层（RC）的活动水平增加；（2）枕外侧皮层（LO）的激活减少；（3）背侧注意力网络的激活减少。此外，RC激活与表现的相关性增强（而LO激活与表现的相关性减弱）。在训练条件下比较有目标和无目标试验时，我们观察到背侧注意力网络有类似的减少，但视觉皮层没有。这些发现表明，学习导致视觉通路中的活动发生大规模重组，RC参与度增加（而LO参与度降低），并且这些变化是根据所执行的感知任务以自上而下的方式触发的。

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