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Dynamic reconfiguration of functional brain networks during working memory training

Karolina Finc, Kamil Bonna, Xiaosong He, David M. Lydon‐Staley, Simone Kühn, Włodzisław Duch, Danielle S. Bassett

2020Nature Communications261 citationsDOIOpen Access PDF

Abstract

The functional network of the brain continually adapts to changing environmental demands. The consequence of behavioral automation for task-related functional network architecture remains far from understood. We investigated the neural reflections of behavioral automation as participants mastered a dual n-back task. In four fMRI scans equally spanning a 6-week training period, we assessed brain network modularity, a substrate for adaptation in biological systems. We found that whole-brain modularity steadily increased during training for both conditions of the dual n-back task. In a dynamic analysis,we found that the autonomy of the default mode system and integration among task-positive systems were modulated by training. The automation of the n-back task through training resulted in non-linear changes in integration between the fronto-parietal and default mode systems, and integration with the subcortical system. Our findings suggest that the automation of a cognitively demanding task may result in more segregated network organization.

Topics & Concepts

Modularity (biology)Task (project management)Default mode networkComputer scienceControl reconfigurationAutomationAdaptation (eye)NeuroscienceWorking memoryCognitive psychologyPsychologyArtificial intelligenceFunctional connectivityEmbedded systemCognitionBiologyMechanical engineeringEngineeringGeneticsManagementEconomicsFunctional Brain Connectivity StudiesNeural dynamics and brain functionEEG and Brain-Computer Interfaces