Abstract
The developmental cognitive neuroscience literature has grown exponentially over the last decade. This paper reviews the functional magnetic resonance imaging (fMRI) literature on brain function development of typically late developing functions of cognitive and motivation control, timing and attention as well as of resting state neural networks. Evidence shows that between childhood and adulthood, concomitant with cognitive maturation, there is progressively increased functional activation in task-relevant lateral and medial frontal, striatal and parieto-temporal brain regions that mediate these higher level control functions. This is accompanied by progressively stronger functional inter-regional connectivity within task-relevant fronto-striatal and fronto-parieto-temporal networks. Negative age associations are observed in earlier developing posterior and limbic regions, suggesting a shift with age from the recruitment of “bottom-up” processing regions towards “top-down” fronto-cortical and fronto-subcortical connections, leading to a more mature, supervised cognition. The resting state fMRI literature further complements this evidence by showing progressively stronger deactivation with age in anti-correlated task-negative resting state networks, which is associated with better task performance. Furthermore, connectivity analyses during the resting state show that with development increasingly stronger long-range connections are being formed, for example, between fronto-parietal and fronto-cerebellar connections, in both task-positive networks and in task-negative default mode networks, together with progressively lesser short-range connections, suggesting progressive functional integration and segregation with age. Overall, evidence suggests that throughout development between childhood and adulthood, there is progressive refinement and integration of both task-positive fronto-cortical and fronto-subcortical activation and task-negative deactivation, leading to a more mature and controlled cognition.
Highlights
Complex cognitive functions that are important for mature goal-directed adult behaviour develop throughout adolescence and well into adulthood [1,2,3]
This review summarises the current evidence for age-associated changes in brain function between childhood and adulthood during these late developing functions of cognitive and motivation control, attention and timing functions as well as of resting state networks
The findings suggest that sex differences in the recruitment of frontal and parietal areas during tasks of cognitive control and attention are associated with underlying differences in the functional maturation of these brain regions
Summary
Complex cognitive functions that are important for mature goal-directed adult behaviour develop throughout adolescence and well into adulthood [1,2,3]. A study using functional inter-regional connectivity using independent component analysis during performance monitoring showed that similar error processing networks are active in adolescents and adults between 11 and 37 years, with, progressively enhanced activation in adults in several regions of these networks, including anterior cingulate, lateral frontal, striato-thalamic and parietal areas [34].
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