Department of Neurology, VU University Medical Center, Amsterdam, The Netherlands.
Neuroscience. 2011 Feb 23;175:169-77. doi: 10.1016/j.neuroscience.2010.11.039. Epub 2010 Dec 3.
Brain networks and cognition have recently begun to attract attention: studies suggest that more efficiently wired resting-state brain networks are indeed correlated with better cognitive performance. "Small-world" brain networks combine local segregation with global integration, hereby subserving information processing. Furthermore, recent studies implicate that gender effects may be present in both network dynamics and its correlations with cognition. This study reports on the relation between resting-state functional brain topology with overall and domain-specific cognitive performance in healthy participants and possible gender differences herein. Healthy participants underwent neuropsychological tests, of which individual scores were converted to z-scores. Network analysis was performed on resting-state, eyes-closed magnetoencephalography (MEG) data, after determining functional connectivity between each pair of sensors. The clustering coefficient (local specialization), average path length (overall integration and efficiency) and "small-world index" (i.e. ratio between clustering and path length) were calculated in six frequency bands. 14 male and 14 female participants were included. Better total cognitive performance was related to increased local connectivity in the theta band, higher clustering coefficient (in delta and theta bands) and higher small-worldness (in theta and lower gamma bands). Women showed less clustering and shorter path length in the delta band. There were no significant correlations between network topology and cognitive functioning in females. In contrast, higher cognitive scores in men were associated with increased theta band clustering and small-worldness. These results provide further evidence for the value of functional brain network topology for cognitive functioning and suggest that gender is an important factor in this respect.
研究表明,连接效率更高的静息态大脑网络确实与更好的认知表现相关。“小世界”大脑网络将局部分离与全局整合相结合,从而为信息处理提供服务。此外,最近的研究表明,网络动态及其与认知的相关性可能存在性别差异。本研究报告了静息态功能脑拓扑结构与健康参与者整体和特定领域认知表现之间的关系,以及其中可能存在的性别差异。健康参与者接受了神经心理学测试,将个体得分转换为 z 分数。在确定了每个传感器之间的功能连接之后,在静息状态、闭眼脑磁图 (MEG) 数据上进行了网络分析。在六个频带中计算了聚类系数(局部专业化)、平均路径长度(整体整合和效率)和“小世界指数”(即聚类与路径长度之比)。纳入了 14 名男性和 14 名女性参与者。总认知表现更好与θ频段的局部连接增加、聚类系数升高(在δ和θ频段)以及小世界程度升高(在θ和较低的γ频段)有关。女性在δ频段的聚类和路径长度较短。在女性中,网络拓扑结构与认知功能之间没有显著相关性。相比之下,男性的认知分数较高与θ频段的聚类和小世界程度增加有关。这些结果为功能大脑网络拓扑结构对认知功能的价值提供了进一步的证据,并表明性别是这方面的一个重要因素。
