Tóth Brigitta, Urbán Gábor, Háden Gábor P, Márk Molnár, Török Miklós, Stam Cornelis Jan, Winkler István
Institute of Cognitive Neuroscience and Psychology, Research Centre for Natural Sciences, Hungarian Academy of Sciences, Budapest, Hungary.
Department of Cognitive Science, Faculty of Natural Sciences, Budapest University of Technology and Economics, Budapest, Hungary.
Hum Brain Mapp. 2017 Aug;38(8):4019-4033. doi: 10.1002/hbm.23645. Epub 2017 May 10.
The organization of functional brain networks changes across human lifespan. The present study analyzed functional brain networks in healthy full-term infants (N = 139) within 1-6 days from birth by measuring neural synchrony in EEG recordings during quiet sleep. Large-scale phase synchronization was measured in six frequency bands with the Phase Lag Index. Macroscopic network organization characteristics were quantified by constructing unweighted minimum spanning tree graphs. The cortical networks in early infancy were found to be significantly more hierarchical and had a more cost-efficient organization compared with MST of random control networks, more so in the theta and alpha than in other frequency bands. Frontal and parietal sites acted as the main hubs of these networks, the topological characteristics of which were associated with gestation age (GA). This suggests that individual differences in network topology are related to cortical maturation during the prenatal period, when functional networks shift from strictly centralized toward segregated configurations. Hum Brain Mapp 38:4019-4033, 2017. © 2017 Wiley Periodicals, Inc.
功能性脑网络的组织在人类生命周期中会发生变化。本研究通过测量安静睡眠期间脑电图记录中的神经同步性,分析了139名健康足月儿出生后1 - 6天内的功能性脑网络。使用相位滞后指数在六个频段测量大规模相位同步。通过构建无加权最小生成树图来量化宏观网络组织特征。研究发现,与随机对照网络的最小生成树相比,婴儿早期的皮质网络具有显著更高的层级性和更具成本效益的组织,在θ波和α波频段比其他频段更为明显。额叶和顶叶部位是这些网络的主要枢纽,其拓扑特征与胎龄(GA)相关。这表明网络拓扑结构的个体差异与孕期皮质成熟有关,在此期间,功能网络从严格的集中配置向分离配置转变。《人类大脑图谱》38:4019 - 4033,2017年。© 2017威利期刊公司。
