Across-study and within-subject functional connectivity of a right temporo-parietal junction subregion involved in stimulus–context integration

Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifyi...

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Published in	NeuroImage (Orlando, Fla.) Vol. 60; no. 4; pp. 2389 - 2398
Main Authors	Jakobs, Oliver, Langner, Robert, Caspers, Svenja, Roski, Christian, Cieslik, Edna C., Zilles, Karl, Laird, Angela R., Fox, Peter T., Eickhoff, Simon B.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.05.2012 Elsevier Limited
Subjects	Associations Attention - physiology Brain Brain - physiology Brain Mapping Cognition & reasoning Connectivity modeling fMRI Humans Magnetic Resonance Imaging Medical imaging Meta-analysis Motor ability Neural Pathways - physiology Psychomotor Performance - physiology Rest - physiology Resting state Right temporo-parietal junction Studies fMRI Resting state Right temporo-parietal junction Connectivity modeling Meta-analysis
Online Access	Get full text
ISSN	1053-8119 1095-9572 1095-9572
DOI	10.1016/j.neuroimage.2012.02.037

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Abstract	Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifying core areas for stimulus–context integration and delineated their functional connectivity (FC) using meta-analytic connectivity modeling (MACM) and analysis of resting-state networks. In a multi-study conjunction, consistently increased activity under higher demands on stimulus–context integration was predominantly found in the right temporo-parietal junction (TPJ), which represented the largest cluster of overlap and was thus used as the seed for the FC analyses. The conjunction between task-dependent (MACM) and task-free (resting state) FC of the right TPJ revealed a shared network comprising bilaterally inferior parietal and frontal cortices, anterior insula, premotor cortex, putamen and cerebellum, i.e., a ‘ventral’ action/attention network. Stronger task-dependent (vs. task-free) connectivity was observed with the pre-SMA, dorsal premotor cortex, intraparietal sulcus, basal ganglia and primary sensori motor cortex, while stronger resting-state (vs. task-dependent) connectivity was found with the dorsolateral prefrontal and medial parietal cortex. Our data provide strong evidence that the right TPJ may represent a key region for the integration of sensory stimuli and contextual frames in action control. Task-dependent associations with regions related to stimulus processing and motor responses indicate that the right TPJ may integrate ‘collaterals’ of sensory processing and apply (ensuing) contextual frames, most likely via modulation of preparatory loops. Given the pattern of resting-state connectivity, internal states and goal representations may provide the substrates for the contextual integration within the TPJ in the absence of a specific task.
AbstractList	Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifying core areas for stimulus–context integration and delineated their functional connectivity (FC) using meta-analytic connectivity modeling (MACM) and analysis of resting-state networks. In a multi-study conjunction, consistently increased activity under higher demands on stimulus–context integration was predominantly found in the right temporo-parietal junction (TPJ), which represented the largest cluster of overlap and was thus used as the seed for the functional connectivity analyses. The conjunction between task-dependent (MACM) and task-free (resting state) FC of the right TPJ revealed a shared network comprising bilaterally inferior parietal and frontal cortices, anterior insula, premotor cortex, putamen and cerebellum, i.e., a ‘ventral’ action / attention network. Stronger task-dependent (vs. task-free) connectivity was observed with the pre-SMA, dorsal pre-motor cortex, intraparietal sulcus, basal ganglia and primary sensory-motor cortex, while stronger resting-state (vs. task-dependent) connectivity was found with the dorsolateral prefrontal and medial parietal cortex. Our data provide strong evidence that the right TPJ may represent a key region for the integration of sensory stimuli and contextual frames in action control. Task-dependent associations with regions related to stimulus processing and motor responses indicate that the right TPJ may integrate ‘collaterals’ of sensory processing and apply (ensuing) contextual frames, most likely via modulation of preparatory loops. Given the pattern of resting-state connectivity, internal states and goal representations may provide the substrates for the contextual integration within the TPJ in the absence of a specific task. Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifying core areas for stimulus-context integration and delineated their functional connectivity (FC) using meta-analytic connectivity modeling (MACM) and analysis of resting-state networks. In a multi-study conjunction, consistently increased activity under higher demands on stimulus-context integration was predominantly found in the right temporo-parietal junction (TPJ), which represented the largest cluster of overlap and was thus used as the seed for the FC analyses. The conjunction between task-dependent (MACM) and task-free (resting state) FC of the right TPJ revealed a shared network comprising bilaterally inferior parietal and frontal cortices, anterior insula, premotor cortex, putamen and cerebellum, i.e., a 'ventral' action/attention network. Stronger task-dependent (vs. task-free) connectivity was observed with the pre-SMA, dorsal premotor cortex, intraparietal sulcus, basal ganglia and primary sensori motor cortex, while stronger resting-state (vs. task-dependent) connectivity was found with the dorsolateral prefrontal and medial parietal cortex. Our data provide strong evidence that the right TPJ may represent a key region for the integration of sensory stimuli and contextual frames in action control. Task-dependent associations with regions related to stimulus processing and motor responses indicate that the right TPJ may integrate 'collaterals' of sensory processing and apply (ensuing) contextual frames, most likely via modulation of preparatory loops. Given the pattern of resting-state connectivity, internal states and goal representations may provide the substrates for the contextual integration within the TPJ in the absence of a specific task.Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifying core areas for stimulus-context integration and delineated their functional connectivity (FC) using meta-analytic connectivity modeling (MACM) and analysis of resting-state networks. In a multi-study conjunction, consistently increased activity under higher demands on stimulus-context integration was predominantly found in the right temporo-parietal junction (TPJ), which represented the largest cluster of overlap and was thus used as the seed for the FC analyses. The conjunction between task-dependent (MACM) and task-free (resting state) FC of the right TPJ revealed a shared network comprising bilaterally inferior parietal and frontal cortices, anterior insula, premotor cortex, putamen and cerebellum, i.e., a 'ventral' action/attention network. Stronger task-dependent (vs. task-free) connectivity was observed with the pre-SMA, dorsal premotor cortex, intraparietal sulcus, basal ganglia and primary sensori motor cortex, while stronger resting-state (vs. task-dependent) connectivity was found with the dorsolateral prefrontal and medial parietal cortex. Our data provide strong evidence that the right TPJ may represent a key region for the integration of sensory stimuli and contextual frames in action control. Task-dependent associations with regions related to stimulus processing and motor responses indicate that the right TPJ may integrate 'collaterals' of sensory processing and apply (ensuing) contextual frames, most likely via modulation of preparatory loops. Given the pattern of resting-state connectivity, internal states and goal representations may provide the substrates for the contextual integration within the TPJ in the absence of a specific task. Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifying core areas for stimulus–context integration and delineated their functional connectivity (FC) using meta-analytic connectivity modeling (MACM) and analysis of resting-state networks. In a multi-study conjunction, consistently increased activity under higher demands on stimulus–context integration was predominantly found in the right temporo-parietal junction (TPJ), which represented the largest cluster of overlap and was thus used as the seed for the FC analyses. The conjunction between task-dependent (MACM) and task-free (resting state) FC of the right TPJ revealed a shared network comprising bilaterally inferior parietal and frontal cortices, anterior insula, premotor cortex, putamen and cerebellum, i.e., a ‘ventral’ action/attention network. Stronger task-dependent (vs. task-free) connectivity was observed with the pre-SMA, dorsal premotor cortex, intraparietal sulcus, basal ganglia and primary sensori motor cortex, while stronger resting-state (vs. task-dependent) connectivity was found with the dorsolateral prefrontal and medial parietal cortex. Our data provide strong evidence that the right TPJ may represent a key region for the integration of sensory stimuli and contextual frames in action control. Task-dependent associations with regions related to stimulus processing and motor responses indicate that the right TPJ may integrate ‘collaterals’ of sensory processing and apply (ensuing) contextual frames, most likely via modulation of preparatory loops. Given the pattern of resting-state connectivity, internal states and goal representations may provide the substrates for the contextual integration within the TPJ in the absence of a specific task. Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while temporal or spatial characteristics of a stimulus train may establish a contextual framework for upcoming stimuli. Here we aimed at identifying core areas for stimulus-context integration and delineated their functional connectivity (FC) using meta-analytic connectivity modeling (MACM) and analysis of resting-state networks. In a multi-study conjunction, consistently increased activity under higher demands on stimulus-context integration was predominantly found in the right temporo-parietal junction (TPJ), which represented the largest cluster of overlap and was thus used as the seed for the FC analyses. The conjunction between task-dependent (MACM) and task-free (resting state) FC of the right TPJ revealed a shared network comprising bilaterally inferior parietal and frontal cortices, anterior insula, premotor cortex, putamen and cerebellum, i.e., a 'ventral' action/attention network. Stronger task-dependent (vs. task-free) connectivity was observed with the pre-SMA, dorsal premotor cortex, intraparietal sulcus, basal ganglia and primary sensori motor cortex, while stronger resting-state (vs. task-dependent) connectivity was found with the dorsolateral prefrontal and medial parietal cortex. Our data provide strong evidence that the right TPJ may represent a key region for the integration of sensory stimuli and contextual frames in action control. Task-dependent associations with regions related to stimulus processing and motor responses indicate that the right TPJ may integrate 'collaterals' of sensory processing and apply (ensuing) contextual frames, most likely via modulation of preparatory loops. Given the pattern of resting-state connectivity, internal states and goal representations may provide the substrates for the contextual integration within the TPJ in the absence of a specific task.
Author	Caspers, Svenja Jakobs, Oliver Cieslik, Edna C. Eickhoff, Simon B. Fox, Peter T. Zilles, Karl Laird, Angela R. Roski, Christian Langner, Robert
AuthorAffiliation	1 Department of Psychiatry, Psychotherapy and Psychosomatics, Medical School, RWTH Aachen University, Aachen, Germany 6 Institute of Clinical Neuroscience and Medical Psychology, Heinrich Heine University, Düsseldorf, Germany 2 C & O. Vogt Institute of Brain Research, Heinrich Heine University, Düsseldorf, Germany 5 University of Texas Health Science Center at San Antonio, San Antonio, TX, USA 4 Jülich–Aachen Research Alliance (JARA-Brain), Germany 3 Institute of Neuroscience and Medicine, INM-2, Research Centre Jülich, Jülich, Germany
AuthorAffiliation_xml	– name: 5 University of Texas Health Science Center at San Antonio, San Antonio, TX, USA – name: 4 Jülich–Aachen Research Alliance (JARA-Brain), Germany – name: 6 Institute of Clinical Neuroscience and Medical Psychology, Heinrich Heine University, Düsseldorf, Germany – name: 3 Institute of Neuroscience and Medicine, INM-2, Research Centre Jülich, Jülich, Germany – name: 1 Department of Psychiatry, Psychotherapy and Psychosomatics, Medical School, RWTH Aachen University, Aachen, Germany – name: 2 C & O. Vogt Institute of Brain Research, Heinrich Heine University, Düsseldorf, Germany
Author_xml	– sequence: 1 givenname: Oliver surname: Jakobs fullname: Jakobs, Oliver organization: Department of Psychiatry, Psychotherapy and Psychosomatics, Medical School, RWTH Aachen University, Aachen, Germany – sequence: 2 givenname: Robert surname: Langner fullname: Langner, Robert organization: Department of Psychiatry, Psychotherapy and Psychosomatics, Medical School, RWTH Aachen University, Aachen, Germany – sequence: 3 givenname: Svenja surname: Caspers fullname: Caspers, Svenja organization: Institute of Neuroscience and Medicine (INM-1, INM-2), Research Centre Jülich, Jülich, Germany – sequence: 4 givenname: Christian surname: Roski fullname: Roski, Christian organization: Institute of Neuroscience and Medicine (INM-1, INM-2), Research Centre Jülich, Jülich, Germany – sequence: 5 givenname: Edna C. surname: Cieslik fullname: Cieslik, Edna C. organization: Institute of Neuroscience and Medicine (INM-1, INM-2), Research Centre Jülich, Jülich, Germany – sequence: 6 givenname: Karl surname: Zilles fullname: Zilles, Karl organization: C & O. Vogt Institute of Brain Research, Heinrich Heine University, Düsseldorf, Germany – sequence: 7 givenname: Angela R. surname: Laird fullname: Laird, Angela R. organization: University of Texas Health Science Center at San Antonio, San Antonio, TX, USA – sequence: 8 givenname: Peter T. surname: Fox fullname: Fox, Peter T. organization: University of Texas Health Science Center at San Antonio, San Antonio, TX, USA – sequence: 9 givenname: Simon B. surname: Eickhoff fullname: Eickhoff, Simon B. email: S.Eickhoff@fz-juelich.de organization: Department of Psychiatry, Psychotherapy and Psychosomatics, Medical School, RWTH Aachen University, Aachen, Germany
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/22387170$$D View this record in MEDLINE/PubMed
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Copyright	2012 Elsevier Inc. Copyright © 2012 Elsevier Inc. All rights reserved. 2012. Elsevier Inc. 2012 Elsevier Inc. All rights reserved. 2012
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Issue	4
Keywords	fMRI Resting state Right temporo-parietal junction Connectivity modeling Meta-analysis
Language	English
License	Copyright © 2012 Elsevier Inc. All rights reserved.
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Snippet	Bidirectional integration between sensory stimuli and contextual framing is fundamental to action control. Stimuli may entail context-dependent actions, while...
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SubjectTerms	Associations Attention - physiology Brain Brain - physiology Brain Mapping Cognition & reasoning Connectivity modeling fMRI Humans Magnetic Resonance Imaging Medical imaging Meta-analysis Motor ability Neural Pathways - physiology Psychomotor Performance - physiology Rest - physiology Resting state Right temporo-parietal junction Studies
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Title	Across-study and within-subject functional connectivity of a right temporo-parietal junction subregion involved in stimulus–context integration
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