[反向连接在简单视觉刺激引发的脑电反应产生中的作用]。

IF 0.2 4区医学 Q4 NEUROSCIENCES Zhurnal Vysshei Nervnoi Deyatelnosti Imeni I P Pavlova Pub Date : 2016-05-01

M G Sharaev, E V Mnatsakanian

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引用次数: 0

摘要

反向连接(从高到低层次)在产生诱发的大脑反应中的作用。采用动态因果建模方法(DCM)探讨了反向连接对简单视觉刺激诱发反应的贡献，并将其量化为刺激后时间的函数。视觉诱发相关电位(ERP)的早期组成部分反映了外源性(感觉)输入，可以用从较低到较高层次的连接(前向连接)来解释。200 ms后的ERP成分反映了内源性活动，需要在模型中同时包含前向和后向连接。我们的研究结果补充了其他作者先前使用DCM的研究结果，即在听觉怪球实验中，反向连接发生在晚潜伏期。

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[The Role of Backward Connections in Generation of Brain Electrical Responces Elicited by Simple Visual Stimuli].

The role of backward connections (from higher to lower hierarchical layers) in the generation of evoked brain esponses. to simple visual stimuli was explored using Dynamic Causal Modelling approach (DCM), and the contribution of backward connections to evoked responses was quantified as a function of post-stimulus time. The early components of visual evoked related potential (ERP) reflect exogenous (sensory) inputs and can be explained by connections from the lower to higher layers'(forward connections). The ERP components after 200 ms reflect endogenous activity and require the inclusion of both forward and backward connections in the model. Our results complement the work of other authors who showed earlier using DCM that the backward connections occur at the late latencies in auditory oddball experiment.

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