The interactions of brain regions with other regions at the network level likely provide the infrastructure necessary for cognitive processes to develop. Specifically, it has been theorized that in infancy brain networks become more modular, or segregated, to support early cognitive specialization, before integration across networks increases to support the emergence of higher-order cognition. The present study examined the maturation of structural covariance networks (SCNs) derived from longitudinal cortical thickness data collected between infancy and childhood (0–6 years). We assessed modularity as a measure of network segregation and global efficiency as a measure of network integration. At the group level, we observed trajectories of i...
Recent neuroimaging studies have demonstrated that human brain networks have economic small-world to...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
Functional brain networks require dynamic reconfiguration to support flexible cognitive function. Ho...
Brain structural covariance networks (SCNs) composed of regions with correlated variation are altere...
Structural covariance conceptualizes how morphologic properties of brain regions are related to one ...
Recent findings from developmental neuroimaging studies suggest that the enhancement of cognitive pr...
Human brain undergoes rapid growth during the first few years of life. While previous research has e...
The brain is organized into networks at multiple resolutions, or scales, yet studies of functional n...
Human brain matures in temporal and regional heterogeneity, with some areas matured at early adultho...
Some brain regions have a central role in supporting integrated brain function, marking them as netw...
Many organizational principles of structural brain networks are established before birth and undergo...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
Some brain regions have a central role in supporting integrated brain function, marking them as netw...
To study age-dependent changes in coupling between cortical neural networks we applied a new method ...
Adverse conditions during fetal life have been associated to both structural and functional changes ...
Recent neuroimaging studies have demonstrated that human brain networks have economic small-world to...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
Functional brain networks require dynamic reconfiguration to support flexible cognitive function. Ho...
Brain structural covariance networks (SCNs) composed of regions with correlated variation are altere...
Structural covariance conceptualizes how morphologic properties of brain regions are related to one ...
Recent findings from developmental neuroimaging studies suggest that the enhancement of cognitive pr...
Human brain undergoes rapid growth during the first few years of life. While previous research has e...
The brain is organized into networks at multiple resolutions, or scales, yet studies of functional n...
Human brain matures in temporal and regional heterogeneity, with some areas matured at early adultho...
Some brain regions have a central role in supporting integrated brain function, marking them as netw...
Many organizational principles of structural brain networks are established before birth and undergo...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
Some brain regions have a central role in supporting integrated brain function, marking them as netw...
To study age-dependent changes in coupling between cortical neural networks we applied a new method ...
Adverse conditions during fetal life have been associated to both structural and functional changes ...
Recent neuroimaging studies have demonstrated that human brain networks have economic small-world to...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
Functional brain networks require dynamic reconfiguration to support flexible cognitive function. Ho...