Fundamental problems in neuroscience today are understanding how patterns of ongoing
spontaneous activity are modified by task performance and whether/how these intrinsic …

Remote brain regions show correlated spontaneous activity at rest within well described
intrinsic connectivity networks (ICNs). Meta‐analytic coactivation studies have uncovered …

During complex tasks, patterns of functional connectivity differ from those in the resting state.
However, what accounts for such differences remains unclear. Brain activity during a task …

Many functional network properties of the human brain have been identified during rest and
task states, yet it remains unclear how the two relate. We identified a whole-brain network …

Brain network connectivity differs across individuals. For example, older adults exhibit less
segregated resting-state subnetworks relative to younger adults (Chan et al., 2014). It has …

At rest, the brain's sensorimotor and higher cognitive systems engage in organized patterns
of correlated activity forming resting-state networks. An important empirical question is how …

Resting-state functional connectivity (FC) has helped reveal the intrinsic network
organization of the human brain, yet its relevance to cognitive task activations has been …

Consistent spatial patterns of coherent activity, representing large-scale networks, have
been reliably identified in multiple populations. Most often, these studies have examined …

The resting brain exhibits coherent patterns of spontaneous low-frequency BOLD
fluctuations. These so-called resting-state functional connectivity (RSFC) networks are …

Characterization of large‐scale brain networks using blood‐oxygenation‐level‐dependent
functional magnetic resonance imaging is typically based on the assumption of network …