Large-scale network interactions involved in dividing attention between the external environment and internal thoughts to pursue two distinct goals

Previous research suggests that default-mode network (DMN) and dorsal attention network (DAN) are involved in internally- and externally-directed attention, respectively, through interactions with salience network (SN) and frontoparietal network (FPCN). Performing a task requiring external attention...

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Published inNeuroImage (Orlando, Fla.) Vol. 197; pp. 49 - 59
Main Authors Maillet, David, Beaty, Roger E., Kucyi, Aaron, Schacter, Daniel L.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 15.08.2019
Elsevier Limited
Subjects
Adult
Attention - physiology
Attention task
Brain - physiology
Brain Mapping
Brain research
Cognition
Creativity
Divergent thinking
Dual-tasking
Environment
Female
Goals
Humans
Magnetic Resonance Imaging
Male
Mental task performance
Neural networks
Neural Pathways - physiology
Neuropsychological Tests
Salience network
Thinking - physiology
Time-varying connectivity
Young Adult
Dual-tasking
Salience network
Time-varying connectivity
Divergent thinking
Creativity
Online AccessGet full text

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Abstract Previous research suggests that default-mode network (DMN) and dorsal attention network (DAN) are involved in internally- and externally-directed attention, respectively, through interactions with salience network (SN) and frontoparietal network (FPCN). Performing a task requiring external attention is often accompanied by a down-regulation of attention to internal thoughts, and vice-versa. In contrast, we often divide our attention between the external environment and internal thoughts to pursue distinct goals, yet virtually no prior research has examined how brain networks support this functionally critical neurocognitive process. In the current study, participants planned their responses for an upcoming alternate uses divergent thinking task (AUT-Condition), indicated whether arrows were pointing left or right (Arrows-Condition) or performed both tasks simultaneously (Dual-Task condition). Behaviorally, the Dual-Task condition was associated with equivalent generation of alternate uses but increased RT variability compared to the single-task conditions. Static connectivity analyses indicated that FPCN and SN increased their connectivity to DMN and reduced their connectivity to DAN during the Dual-Task condition and the AUT-Condition compared to the Arrows-Condition. Furthermore, DAN-SN connectivity was highest during the Arrows-Condition, intermediate during the Dual-Task condition and lowest during the AUT-Condition. Finally, time-varying connectivity analyses indicated that individuals who reported spending less time thinking of alternate uses during the Dual-Task condition spent more time in a state associated with performing the Arrows-Condition. Overall, our results suggest that interactions between DMN, FPCN, SN and DAN allow internal-external dual-tasking, and that time-varying functional connectivity between these networks is sensitive to attentional fluctuations between tasks during dual-tasking. •Internally- and externally-directed attention tasks performed alone or in combination.•Salience network connectivity is sensitive to tradeoff between internal and external attention.•Time-varying connectivity is sensitive to attentional fluctuations during dual-tasking.
AbstractList Previous research suggests that default-mode network (DMN) and dorsal attention network (DAN) are involved in internally- and externally-directed attention, respectively, through interactions with salience network (SN) and frontoparietal network (FPCN). Performing a task requiring external attention is often accompanied by a down-regulation of attention to internal thoughts, and vice-versa. In contrast, we often divide our attention between the external environment and internal thoughts to pursue distinct goals, yet virtually no prior research has examined how brain networks support this functionally critical neurocognitive process. In the current study, participants planned their responses for an upcoming alternate uses divergent thinking task (AUT-Condition), indicated whether arrows were pointing left or right (Arrows-Condition) or performed both tasks simultaneously (Dual-Task condition). Behaviorally, the Dual-Task condition was associated with equivalent generation of alternate uses but increased RT variability compared to the single-task conditions. Static connectivity analyses indicated that FPCN and SN increased their connectivity to DMN and reduced their connectivity to DAN during the Dual-Task condition and the AUT-Condition compared to the Arrows-Condition. Furthermore, DAN-SN connectivity was highest during the Arrows-Condition, intermediate during the Dual-Task condition and lowest during the AUT-Condition. Finally, time-varying connectivity analyses indicated that individuals who reported spending less time thinking of alternate uses during the Dual-Task condition spent more time in a state associated with performing the Arrows-Condition. Overall, our results suggest that interactions between DMN, FPCN, SN and DAN allow internal-external dual-tasking, and that time-varying functional connectivity between these networks is sensitive to attentional fluctuations between tasks during dual-tasking.
Previous research suggests that default-mode network (DMN) and dorsal attention network (DAN) are involved in internally- and externally-directed attention, respectively, through interactions with salience network (SN) and frontoparietal network (FPCN). Performing a task requiring external attention is often accompanied by a down-regulation of attention to internal thoughts, and vice-versa. In contrast, we often divide our attention between the external environment and internal thoughts to pursue distinct goals, yet virtually no prior research has examined how brain networks support this functionally critical neurocognitive process. In the current study, participants planned their responses for an upcoming alternate uses divergent thinking task (AUT-Condition), indicated whether arrows were pointing left or right (Arrows-Condition) or performed both tasks simultaneously (Dual-Task condition). Behaviorally, the Dual-Task condition was associated with equivalent generation of alternate uses but increased RT variability compared to the single-task conditions. Static connectivity analyses indicated that FPCN and SN increased their connectivity to DMN and reduced their connectivity to DAN during the Dual-Task condition and the AUT-Condition compared to the Arrows-Condition. Furthermore, DAN-SN connectivity was highest during the Arrows-Condition, intermediate during the Dual-Task condition and lowest during the AUT-Condition. Finally, time-varying connectivity analyses indicated that individuals who reported spending less time thinking of alternate uses during the Dual-Task condition spent more time in a state associated with performing the Arrows-Condition. Overall, our results suggest that interactions between DMN, FPCN, SN and DAN allow internal-external dual-tasking, and that time-varying functional connectivity between these networks is sensitive to attentional fluctuations between tasks during dual-tasking. •Internally- and externally-directed attention tasks performed alone or in combination.•Salience network connectivity is sensitive to tradeoff between internal and external attention.•Time-varying connectivity is sensitive to attentional fluctuations during dual-tasking.
Author Maillet, David
Schacter, Daniel L.
Kucyi, Aaron
Beaty, Roger E.
AuthorAffiliation 4. Department of Psychology, Harvard University, William James Hall, 33 Kirkland Street, Cambridge, MA 02138
1. Rotman Research Institute, Baycrest Health Sciences, University of Toronto, 3560 Bathurst St, North York, ON M6A 2E1
3. Neurology and Neurological Sciences, Stanford University, 300 Pasteur Drive, room M030 Stanford, CA 94305-2200 USA
2. Department of Psychology, Pennsylvania State University, 140 Moore Building, University Park, PA 16801
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Keywords Dual-tasking
Salience network
Time-varying connectivity
Divergent thinking
Creativity
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Snippet Previous research suggests that default-mode network (DMN) and dorsal attention network (DAN) are involved in internally- and externally-directed attention,...
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StartPage 49
SubjectTerms Adult
Attention - physiology
Attention task
Brain - physiology
Brain Mapping
Brain research
Cognition
Creativity
Divergent thinking
Dual-tasking
Environment
Female
Goals
Humans
Magnetic Resonance Imaging
Male
Mental task performance
Neural networks
Neural Pathways - physiology
Neuropsychological Tests
Salience network
Thinking - physiology
Time-varying connectivity
Young Adult
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Title Large-scale network interactions involved in dividing attention between the external environment and internal thoughts to pursue two distinct goals
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