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W2949076297 abstract "Our capacity for higher cognitive reasoning has a measurable limit. This limit is thought to arise from the brain's capacity to flexibly reconfigure interactions between spatially distributed networks. Recent work, however, has suggested that reconfigurations of task-related networks are modest when compared with intrinsic resting-state network architecture. Here we combined resting-state and task-driven functional magnetic resonance imaging to examine how flexible, task-specific reconfigurations associated with increasing reasoning demands are integrated within a stable intrinsic brain topology. Human participants (21 males and 28 females) underwent an initial resting-state scan, followed by a cognitive reasoning task involving different levels of complexity, followed by a second resting-state scan. The reasoning task required participants to deduce the identity of a missing element in a 4 × 4 matrix, and item difficulty was scaled parametrically as determined by relational complexity theory. Analyses revealed that external task engagement was characterized by a significant change in functional brain modules. Specifically, resting-state and null-task demand conditions were associated with more segregated brain-network topology, whereas increases in reasoning complexity resulted in merging of resting-state modules. Further increments in task complexity did not change the established modular architecture, but affected selective patterns of connectivity between frontoparietal, subcortical, cingulo-opercular, and default-mode networks. Larger increases in network efficiency within the newly established task modules were associated with higher reasoning accuracy. Our results shed light on the network architectures that underlie external task engagement, and highlight selective changes in brain connectivity supporting increases in task complexity.SIGNIFICANCE STATEMENT Humans have clear limits in their ability to solve complex reasoning problems. It is thought that such limitations arise from flexible, moment-to-moment reconfigurations of functional brain networks. It is less clear how such task-driven adaptive changes in connectivity relate to stable, intrinsic networks of the brain and behavioral performance. We found that increased reasoning demands rely on selective patterns of connectivity within cortical networks that emerged in addition to a more general, task-induced modular architecture. This task-driven architecture reverted to a more segregated resting-state architecture both immediately before and after the task. These findings reveal how flexibility in human brain networks is integral to achieving successful reasoning performance across different levels of cognitive demand." @default.
W2949076297 created "2019-06-27" @default.
W2949076297 creator A5005195196 @default.
W2949076297 creator A5006126339 @default.
W2949076297 creator A5031170774 @default.
W2949076297 creator A5076995446 @default.
W2949076297 date "2017-07-31" @default.
W2949076297 modified "2023-10-16" @default.
W2949076297 title "Reconfiguration of Brain Network Architectures between Resting-State and Complexity-Dependent Cognitive Reasoning" @default.
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W2949076297 doi "https://doi.org/10.1523/jneurosci.0485-17.2017" @default.
W2949076297 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6596866" @default.
W2949076297 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28760864" @default.
W2949076297 hasPublicationYear "2017" @default.
W2949076297 type Work @default.
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