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Dynamic reconfiguration of default and frontoparietal network supports creative incubation
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Dynamic reconfiguration of default and frontoparietal network supports creative incubation
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Journal Article
Dynamic reconfiguration of default and frontoparietal network supports creative incubation
2025
Overview
•Dynamic integration of neural information across DM and FP lays the foundation for the incubation effect.•The pathway through which brain network dynamics promotes creative cognition is environmentally flexible. When environment is non-demanding or moderately-demanding, DM-FP integration facilitate creative incubation through DM-mediated associative thinking or FP-mediated controlled thinking, respectively.•We suggested a dynamic balance between associative thinking and controlled thinking serves to help human flexibly navigate to creativity in an “offline state”.
Although creative ideas often emerge during distraction activities unrelated to the creative task, empirical research has yet to reveal the underlying neurocognitive mechanism. Using an incubation paradigm, we temporarily disengaged participants from the initial creative ideation task and required them to conduct two different distraction activities (moderately-demanding: 1-back working memory task, non-demanding: 0-back choice reaction time task), then returned them to the previous creative task. On the process of creative ideation, we calculated the representational dissimilarities between the two creative ideation phases before and after incubation period to estimate the neural representational change underlying successful incubation. The results found that, for the 0-back condition, successful incubation was associated with the representational change in precuneus (PCU), whereas for the 1-back condition, it was associated with change in rostrolateral PFC (rlPFC), suggesting the dual processes of the DMN-mediated associative thinking and PFC-mediated controlled thinking for the 0- or the 1-back incubation conditions to prompt creation. On the incubation delay, we found the successful incubation in both conditions was accompanied with network integration between frontoparietal (FP) and default mode (DM) network, further suggesting the coupling of the controlled- and associative-thinking for the incubation to work. Moreover, we found the FP-DM integration during incubation period could respectively predict the representational change in PCU or rlPFC in the creative ideation phase of 0- or 1-back condition. This means both conditions benefits from the coordination of the controlled and of the associative thinking in incubation period, but for the representational change in creative ideation phase, 1-back condition relies more on the controlled thinking, whereas the 0-back on the associative ones. Additionally, we created a neural encoding indicator to assess the degree to which temporal activities in the rlPFC or PCU during incubation delay is related to the after-incubation successful problem-solving, and we found a positive relation between this indicator and dynamic reconfiguration of brain networks. This further indicates that FP-DM integration supports creative incubation through offline processing.
Publisher
Elsevier Inc,Elsevier Limited,Elsevier
Subject
/ Brain
/ Default Mode Network - diagnostic imaging
/ Default Mode Network - physiology
/ Female
/ Frontal Lobe - diagnostic imaging
/ Humans
/ KeyWord
/ Male
/ Memory, Short-Term - physiology
/ Nerve Net - diagnostic imaging
/ Parietal Lobe - diagnostic imaging
/ Prefrontal Cortex - diagnostic imaging
