Transient process of cortical activity during Necker cube perception: from local clusters to global synchrony.

Daisuke Shimaoka, Keiichi Kitajo, Kunihiko Kaneko, Yoko Yamaguchi
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引用次数: 15

Abstract

Background: It has been discussed that neural phase-synchrony across distant cortical areas (or global phase-synchrony) was correlated with various aspects of consciousness. The generating process of the synchrony, however, remains largely unknown. As a first step, we investigate transient process of global phase-synchrony, focusing on phase-synchronized clusters. We hypothesize that the phase-synchronized clusters are dynamically organized before global synchrony and clustering patterns depend on perceptual conditions.

Methods: In an EEG study, Kitajo reported that phase-synchrony across distant cortical areas was selectively enhanced by top-down attention around 4 Hz in Necker cube perception. Here, we further analyzed the phase-synchronized clusters using hierarchical clustering which sequentially binds up the nearest electrodes based on similarity of phase locking between the cortical signals. First, we classified dominant components of the phase-synchronized clusters over time. We then investigated how the phase-synchronized clusters change with time, focusing on their size and spatial structure.

Results: Phase-locked clusters organized a stable spatial pattern common to the perceptual conditions. In addition, the phase-locked clusters were modulated transiently depending on the perceptual conditions and the time from the perceptual switch. When top-down attention succeeded in switching perception as subjects intended, independent clusters at frontal and occipital areas grew to connect with each other around the time of the perceptual switch. However, the clusters in the occipital and left parietal areas remained divided when top-down attention failed in switching perception. When no primary biases exist, the cluster in the occipital area grew to its maximum at the time of the perceptual switch within the occipital area.

Conclusions: Our study confirmed the existence of stable phase-synchronized clusters. Furthermore, these clusters were transiently connected with each other. The connecting pattern depended on subjects' internal states. These results suggest that subjects' attentional states are associated with distinct spatio-temporal patterns of the phase-locked clusters.

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内克尔立方体感知过程中皮层活动的短暂过程:从局部集群到全局同步。
背景:我们已经讨论过,跨远端皮层区域的神经相位同步(或全局相位同步)与意识的各个方面相关。然而,同步的产生过程在很大程度上仍然未知。作为第一步,我们研究了全局相位同步的瞬态过程,重点研究了相位同步簇。我们假设,在全局同步之前,相位同步集群是动态组织的,聚类模式依赖于感知条件。方法:在一项脑电图研究中,Kitajo报告说,在Necker立方体感知中,自上而下的注意在4 Hz左右有选择性地增强了远端皮层区域的相位同步。在这里,我们进一步使用分层聚类分析了相位同步簇,该聚类基于皮层信号之间锁相的相似性顺序结合最近的电极。首先,我们对相位同步集群的主要组成部分进行了分类。然后,我们研究了相同步集群如何随时间变化,重点研究了它们的大小和空间结构。结果:锁相簇组织了一个稳定的空间模式,共同的感知条件。此外,锁相簇根据感知条件和感知切换时间进行瞬态调制。当自上而下的注意力成功地按照受试者的意愿转换感知时,前额和枕叶区域的独立集群在感知转换的时候开始相互连接。然而,当自上而下的注意力转换知觉失败时,枕叶和左顶叶区域的簇仍然是分裂的。当不存在初级偏倚时,枕区的群集在枕区的知觉转换时达到最大。结论:我们的研究证实了稳定的相同步团簇的存在。此外,这些集群彼此之间是瞬时连接的。连接模式取决于被试的内部状态。这些结果表明,被试的注意力状态与锁相簇的不同时空模式有关。
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