Synchronous oscillations in the cortex, LGN and retina of the cat: how are they related?

Proceedings II Workshop on Cybernetic Vision Pub Date : 1996-12-09 DOI:10.1109/CYBVIS.1996.629436

S. Neuenschwander, M. Castelo‐Branco, S. Herculano, W. Singer

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Abstract

Synchronous oscillations within a broad range of frequencies have been described for visual responses in retinal ganglion cells which are transmitted by the lateral geniculate nucleus (LGN), raising the question of how oscillatory inputs contribute to synchronous oscillatory responses in the cortex. We have made simultaneous recordings from visual areas 17 and 18 as well as the LGN and retina of the anaesthetized cat to examine how the occurrence of synchronization in the cortex follows subcortical oscillatory responses. Strong correlation of oscillatory responses was observed between the retina, LGN and the cortex. This finding provides evidence that cortical neurons may follow retinal oscillatory responses relayed by the LGN. In many cases, however, the development of cortical synchronization was independent of the temporal structure of the incoming inputs, excluding a simple feedforward mechanism for cortical synchronization. It is possible that depending on the stimulus, synchronous input from the LGN could facilitate synchronization of cortical responses by intracortical mechanisms and thereby contribute to the binding of features of objects.

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猫的皮质、LGN和视网膜的同步振荡:它们是如何关联的?

在广泛的频率范围内的同步振荡被描述为视网膜神经节细胞的视觉反应，由外侧膝状核(LGN)传递，提出了振荡输入如何促进皮层同步振荡反应的问题。我们对麻醉猫的17和18视觉区以及LGN和视网膜进行了同步记录，以研究皮层中同步的发生是如何跟随皮层下振荡反应的。在视网膜、LGN和皮层之间观察到振荡反应的强相关性。这一发现提供了证据，表明皮层神经元可能遵循由LGN传递的视网膜振荡反应。然而，在许多情况下，皮质同步的发展与输入的时间结构无关，排除了皮质同步的简单前馈机制。根据刺激，来自LGN的同步输入可能通过皮质内机制促进皮质反应的同步，从而有助于物体特征的结合。

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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Proceedings II Workshop on Cybernetic Vision

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