Some brain regions have a central role in supporting integrated brain function, marking them as network hubs. Given the functional importance of hubs, it is natural to ask how they emerge during development and to consider how they shape the function of the maturing brain. Here, we review evidence examining how brain network hubs, both in structural and functional connectivity networks, develop over the prenatal, neonate, childhood, and adolescent periods. The available evidence suggests that structural hubs of the brain arise in the prenatal period and show a consistent spatial topography through development, but undergo a protracted period of consolidation that extends into late adolescence. In contrast, the hubs of brain functional netwo...
International audienceIn the human brain, development of structural connectivity starts during the e...
Early human brain development constitutes a sequence of intricate processes resulting in the ontogen...
The mature human brain is organized into a collection of specialized functional networks that flexib...
Some brain regions have a central role in supporting integrated brain function, marking them as netw...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
Our brain is a complex network of structurally and functionally interconnected regions, shaped to ef...
Advances in neuroimaging and network analyses have lead to discovery of highly connected regions, or...
Recent findings from developmental neuroimaging studies suggest that the enhancement of cognitive pr...
Many organizational principles of structural brain networks are established before birth and undergo...
MRI connectomics is an emerging approach to study the brain as a network of interconnected brain reg...
The interactions of brain regions with other regions at the network level likely provide the infrast...
Brain connectivity shows protracted development throughout childhood and adolescence, and, as such, ...
Brain structural covariance networks (SCNs) composed of regions with correlated variation are altere...
Recent advances in MRI technology have enabled precise measurements of correlated activity throughou...
Recent studies of the structural and functional development of the human brain over the early years ...
International audienceIn the human brain, development of structural connectivity starts during the e...
Early human brain development constitutes a sequence of intricate processes resulting in the ontogen...
The mature human brain is organized into a collection of specialized functional networks that flexib...
Some brain regions have a central role in supporting integrated brain function, marking them as netw...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
Our brain is a complex network of structurally and functionally interconnected regions, shaped to ef...
Advances in neuroimaging and network analyses have lead to discovery of highly connected regions, or...
Recent findings from developmental neuroimaging studies suggest that the enhancement of cognitive pr...
Many organizational principles of structural brain networks are established before birth and undergo...
MRI connectomics is an emerging approach to study the brain as a network of interconnected brain reg...
The interactions of brain regions with other regions at the network level likely provide the infrast...
Brain connectivity shows protracted development throughout childhood and adolescence, and, as such, ...
Brain structural covariance networks (SCNs) composed of regions with correlated variation are altere...
Recent advances in MRI technology have enabled precise measurements of correlated activity throughou...
Recent studies of the structural and functional development of the human brain over the early years ...
International audienceIn the human brain, development of structural connectivity starts during the e...
Early human brain development constitutes a sequence of intricate processes resulting in the ontogen...
The mature human brain is organized into a collection of specialized functional networks that flexib...