Development of the brain's functional network architecture.

rs-fcMRI signal. a rs-fcMRI timecourses from left and right anterior insula/frontal operculum (aI/fO) regions, showing the high correlation or rs-fcMRI “connectivity” found between homotopic regions. b Left aI/fO seed map: the seed map uses the same type of correlations depicted in (a), but instead of determining the correlation between only the left and right aI/fO regions, the seed map shows all voxels with rs-fcMRI timecourses significantly correlated with the left aI/fO

rs-fcMRI analyses using a region matrix approach to network definition. In contrast to a seed map analysis, this approach finds the relationships between a group of functionally or anatomically defined regions. The rs-fcMRI timecourse is extracted from each region, and the timecourse from each region is correlated with each other region to form a matrix. The correlation matrix can then be thresholded to define any correlation above a given value as an edge or connection, which can either be depicted visually (see example in bottom left) or entered into a community detection algorithm (see example on top right). The matrix, in that it includes nodes and edges, constitutes a network in the graph theoretical sense

Development of community structure from local to distributed communities via segregation and integration

Functional brain maturation curve: 238 individual measures of brain maturity are shown as open circles (115 females in red), plotted by chronological age on the x-axis and rs-fcMRI brain maturation index on the y-axis. The data was fit to curves using information criteria analyses and form a non-linear shape typical of many growth curves. The maturation curves for two separate algorithms are shown in solid gray and black lines, while the 95% prediction limits are shown in the dashed lines. Figure from Dosenbach et al. 2010

Direct comparison of region-pair correlations between children and adults. a Connections that get significantly stronger with age (shown in red) are between generally nearby regions. Connections that get significantly weaker with age (shown in blue) are between generally distant regions. Note that regions from both hemispheres are reflected onto a single surface, with the left hemisphere regions displayed in a darker yellow. (Figure adapted from Fair et al. 2007). b Plot of difference between adult and child correlation values by Euclidean distance for each of the pairwise connections shown in panel a. The mean distance for correlations greater in children than adults (red regions) is significantly shorter than the mean distance for correlations greater in adults than children. (Figure adapted from Fair et al. 2007)

Development of rs-fcMRI correlations via functional segregation and integration occurs differentially in functionally distinct regions. a Location of anterior cingulate regions. S1, S3, S5, S7, and I9 are used in the developmental analysis. b Plots reflect the number of voxels significantly correlated with the seed region (S1, S3, S5, S7, and I9) in bins of 20 mm Euclidean distance from the original seed. Significant differences between age groups are denoted with an asterisk. While the S1 region, related to motor control, shows no developmental effects, the S3 region related to attentional control shows decreased correlations with nearby voxels and the S5, S7 and I9 regions related to conflict monitoring, social processing, and emotional regulation, repectively, show both decreased correlations with nearby voxels and increased correlations with distant voxels. (Figure adapted from Kelly et al. 2009)