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Precision estimates of parallel distributed association networks: evidence for domain specialization and implications for evolution and development

Lauren M. DiNicola, Randy L. Buckner

2021Current Opinion in Behavioral Sciences62 citationsDOIOpen Access PDF

Abstract

Humans can reason about other minds, comprehend language and imagine. These abilities depend on association regions that exhibit evolutionary expansion and prolonged postnatal development. Precision maps within individuals reveal these expanded zones are populated by multiple specialized networks that each possess a spatially distributed motif but remain anatomically separated throughout the cortex for language, social and mnemonic / spatial functions. Rather than converge on multi-domain regions or hubs, these networks include distinct regions within rostral prefrontal and temporal association zones. To account for these observations, we propose the expansion-fractionation-specialization (EFS) hypothesis: evolutionary expansion of human association cortex may have allowed for an archetype distributed network to fractionate into multiple specialized networks. Human development may recapitulate fractionation and specialization when these abilities emerge.

Topics & Concepts

Association (psychology)Domain (mathematical analysis)Computer sciencePsychologyMathematicsPsychotherapistMathematical analysisComplex Network Analysis TechniquesFunctional Brain Connectivity Studies