Task-induced deactivation from rest extends beyond the default mode brain network

Activity decreases, or deactivations, of midline and parietal cortical brain regions are routinely observed in human functional neuroimaging studies that compare periods of task-based cognitive performance with passive states, such as rest. It is now widely held that such task-induced deactivations...

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Veröffentlicht in:	PloS one 2011-07, Vol.6 (7), p.e22964-e22964
Hauptverfasser:	Harrison, Ben J, Pujol, Jesus, Contreras-Rodríguez, Oren, Soriano-Mas, Carles, López-Solà, Marina, Deus, Joan, Ortiz, Hector, Blanco-Hinojo, Laura, Alonso, Pino, Hernández-Ribas, Rosa, Cardoner, Narcís, Menchón, José M
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Sprache:	eng
Schlagworte:	Adolescent Adult Assaigs clínics Biology Brain Brain - anatomy & histology Brain - physiology Brain Mapping Clinical trials Cognició Cognition Cognitive ability Cognitive tasks Cortex (insular) Cortex (parietal) Cortex (somatosensory) Deactivation Demand Female Functional magnetic resonance imaging Functional Neuroimaging Human behavior Humans Magnetic resonance Magnetic Resonance Imaging Mapatge del cervell Medical imaging Medicine Middle Aged Nerve Net - anatomy & histology Nerve Net - physiology Neural Pathways - physiology Neuroimaging Neurology Neurosciences Pain Physiology Psychiatry Rest Rest - physiology Somatosensory cortex Studies Task Performance and Analysis Young Adult
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creator	Harrison, Ben J Pujol, Jesus Contreras-Rodríguez, Oren Soriano-Mas, Carles López-Solà, Marina Deus, Joan Ortiz, Hector Blanco-Hinojo, Laura Alonso, Pino Hernández-Ribas, Rosa Cardoner, Narcís Menchón, José M
description	Activity decreases, or deactivations, of midline and parietal cortical brain regions are routinely observed in human functional neuroimaging studies that compare periods of task-based cognitive performance with passive states, such as rest. It is now widely held that such task-induced deactivations index a highly organized 'default-mode network' (DMN): a large-scale brain system whose discovery has had broad implications in the study of human brain function and behavior. In this work, we show that common task-induced deactivations from rest also occur outside of the DMN as a function of increased task demand. Fifty healthy adult subjects performed two distinct functional magnetic resonance imaging tasks that were designed to reliably map deactivations from a resting baseline. As primary findings, increases in task demand consistently modulated the regional anatomy of DMN deactivation. At high levels of task demand, robust deactivation was observed in non-DMN regions, most notably, the posterior insular cortex. Deactivation of this region was directly implicated in a performance-based analysis of experienced task difficulty. Together, these findings suggest that task-induced deactivations from rest are not limited to the DMN and extend to brain regions typically associated with integrative sensory and interoceptive processes.
doi_str_mv	10.1371/journal.pone.0022964
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subjects	Adolescent Adult Assaigs clínics Biology Brain Brain - anatomy & histology Brain - physiology Brain Mapping Clinical trials Cognició Cognition Cognitive ability Cognitive tasks Cortex (insular) Cortex (parietal) Cortex (somatosensory) Deactivation Demand Female Functional magnetic resonance imaging Functional Neuroimaging Human behavior Humans Magnetic resonance Magnetic Resonance Imaging Mapatge del cervell Medical imaging Medicine Middle Aged Nerve Net - anatomy & histology Nerve Net - physiology Neural Pathways - physiology Neuroimaging Neurology Neurosciences Pain Physiology Psychiatry Rest Rest - physiology Somatosensory cortex Studies Task Performance and Analysis Young Adult
title	Task-induced deactivation from rest extends beyond the default mode brain network
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