Receptive-Field Plasticity in the Adult Visual Cortex: Dynamic Signal Rerouting or Experience-Dependent Plasticity

Seminars in Neuroscience Pub Date : 1997-01-01 DOI:10.1006/smns.1997.0104

Yuzo M. Chino

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引用次数: 10

Abstract

Neurons in adult visual cortex can generate new receptive fields (RFs) when small retinal injuries remove their normal feedforward signals, a clear sign of plasticity. The activation of new RFs leads to a striking topographic map reorganization around the deafferentated cortical region. It appears that the lesion down-regulates GABAergic inhibition and uncovers the normally subthreshold signals from remote areas. The newly activated individual neurons and their assemblies show surprisingly normal response patterns, indicating that these large-scale alterations in the cortical map may contribute to, rather than disrupt, visual perception. Thus, weighing a variety of synaptic inputs based on the nature of the current drive and history of prior stimulation, the adult visual cortex is capable of showing considerable “plasticity” while maintaining the overall stability of its functional organization. In the mammalian visual system, however, the involvement of experience-dependent plasticity in this process is, as reviewed here, a matter of debate.

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成人视觉皮层的接受场可塑性:动态信号改道或经验依赖的可塑性

当小的视网膜损伤消除了正常的前馈信号时，成人视觉皮层的神经元可以产生新的接受野(RFs)，这是一个明显的可塑性迹象。新的RFs的激活导致皮层失联区域周围的地形图重组。损伤似乎下调了gaba能抑制，并揭示了来自偏远地区的正常阈下信号。新激活的单个神经元及其组合显示出令人惊讶的正常反应模式，表明皮质图中的这些大规模改变可能有助于而不是破坏视觉感知。因此，根据当前驱动的性质和先前刺激的历史来权衡各种突触输入，成人视觉皮层能够在保持其功能组织整体稳定性的同时显示出相当大的“可塑性”。然而，在哺乳动物的视觉系统中，经验依赖的可塑性在这一过程中的参与，如本文所述，是一个有争议的问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Seminars in Neuroscience

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