雪貂丘脑与视觉皮层间前馈和反馈通路的时间特性。

Farran Briggs, W Martin Usrey
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引用次数: 24

摘要

本研究探讨了雪貂膝状外侧核(LGN)和初级视觉皮层之间的膝状皮质和膝状皮质(CG)通路的时间特性。在LGN中使用电刺激来激发原叶皮质和CG轴突的动作电位,结果表明原叶皮质神经元的传导潜伏期明显快于CG神经元。在每个通路中,轴突潜伏期和视觉生理学支持神经元亚类的观点。通过检查视觉反应的时间和CG反馈的延迟,估计表明视觉信息可以在视觉刺激开始后60毫秒到达皮层并返回LGN。这些发现限制了促肾上腺皮质酸反馈在视觉处理中的功能作用。
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Temporal properties of feedforward and feedback pathways between the thalamus and visual cortex in the ferret.

This study examines the temporal properties of geniculocortical and corticogeniculate (CG) pathways that link the lateral geniculate nucleus (LGN) and primary visual cortex in the ferret. Using electrical stimulation in the LGN to evoke action potentials in geniculocortical and CG axons, results show that conduction latencies are significantly faster in geniculocortical neurons than in CG neurons. Within each pathway, axonal latency and visual physiology support the view of sub-classes of neurons. By examining the timing of visual responses and the latency of CG feedback, estimates indicate that visual information can reach the cortex and return to the LGN as early as 60 msec following the onset of a visual stimulus. These findings place constraints on the functional role of corticogeniculate feedback for visual processing.

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