Earlier studies on adults have shown that functional connectivity (FC) of brain networks can vary depending on the brain state and cognitive challenge. Network connectivity has been investigated quite extensively in children in resting state, much less during tasks and is largely unexplored between these brain states. Here we used functional magnetic resonance imaging and independent component analysis to investigate the functional architecture of large-scale brain networks in 16 children (aged 7–11 years, 11 males) and 16 young adults (aged 22–29 years, 10 males) during resting state and visual working memory tasks. We identified the major neurocognitive intrinsic connectivity networks (ICNs) in both groups. Children had stronger FC than a...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
The longitudinal study of typical neurodevelopment is key for understanding deviations due to specif...
The human brain is active during rest and hierarchically organized into intrinsic functional network...
Earlier studies on adults have shown that functional connectivity (FC) of brain networks can vary de...
Earlier studies on adults have shown that functional connectivity (FC) of brain networks can vary de...
Over the past decade, examination of functional connectivity using functional magnetic resonance ima...
Previous studies showed that functional connectivity (FC) within resting state (RS) networks is modu...
Previous studies on brain functional connectivity networks in children have mainly focused on change...
Efforts to map the functional architecture of the developing human brain have shown that connectivit...
Previous studies showed that functional connectivity (FC) within resting state (RS) networks is modu...
Examining while using the resting-state functional magnetic resonance imaging (rs-fMRI) of brain dev...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
Functional activity in the human brain is intrinsically organized into independently active, connect...
The ontogeny of large-scale functional organization of the human brain is not well understood. Here ...
Early childhood (7–8 years old) and early adolescence (11–12 years old) constitute two landmark deve...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
The longitudinal study of typical neurodevelopment is key for understanding deviations due to specif...
The human brain is active during rest and hierarchically organized into intrinsic functional network...
Earlier studies on adults have shown that functional connectivity (FC) of brain networks can vary de...
Earlier studies on adults have shown that functional connectivity (FC) of brain networks can vary de...
Over the past decade, examination of functional connectivity using functional magnetic resonance ima...
Previous studies showed that functional connectivity (FC) within resting state (RS) networks is modu...
Previous studies on brain functional connectivity networks in children have mainly focused on change...
Efforts to map the functional architecture of the developing human brain have shown that connectivit...
Previous studies showed that functional connectivity (FC) within resting state (RS) networks is modu...
Examining while using the resting-state functional magnetic resonance imaging (rs-fMRI) of brain dev...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
Functional activity in the human brain is intrinsically organized into independently active, connect...
The ontogeny of large-scale functional organization of the human brain is not well understood. Here ...
Early childhood (7–8 years old) and early adolescence (11–12 years old) constitute two landmark deve...
Human adolescence is a period of rapid changes in cognition and goal-directed behavior, and it const...
The longitudinal study of typical neurodevelopment is key for understanding deviations due to specif...
The human brain is active during rest and hierarchically organized into intrinsic functional network...