Inhibitory Control and the Structural Parcelation of the Right Inferior Frontal Gyrus

The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations of behavioral performance measures and local gray matter characteristics. However, the white matter microstructure of the rIFG as well as its...

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Published inFrontiers in human neuroscience Vol. 16; p. 787079
Main Authors Boen, Rune, Raud, Liisa, Huster, Rene J.
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 24.02.2022
Frontiers Media S.A
Subjects
Accuracy
Behavior
Experiments
Frontal gyrus
inhibitory control
Magnetic resonance imaging
Neural networks
Neuroimaging
Neuroscience
Reaction time task
response execution
response inhibition
right inferior frontal gyrus
structural parcelation
Substantia alba
Substantia grisea
right inferior frontal gyrus
inhibitory control
response inhibition
structural parcelation
response execution
Online AccessGet full text
ISSN1662-5161
1662-5161
DOI10.3389/fnhum.2022.787079

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Abstract The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations of behavioral performance measures and local gray matter characteristics. However, the white matter microstructure of the rIFG as well as its connectivity has been less in focus, especially when it comes to the consideration of potential subdivisions within this area. The present study reconstructed the structural connections of the three main subregions of the rIFG (i.e., pars opercularis, pars triangularis, and pars orbitalis) using diffusion tensor imaging, and further assessed their associations with behavioral measures of inhibitory control. The results revealed a marked heterogeneity of the three subregions with respect to the pattern and extent of their connections, with the pars orbitalis showing the most widespread inter-regional connectivity, while the pars opercularis showed the lowest number of interconnected regions. When relating behavioral performance measures of a stop signal task to brain structure, the data indicated an association between the dorsal opercular connectivity and the go reaction time and the stopping accuracy.
AbstractList The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations of behavioral performance measures and local grey matter characteristics. However, the white matter microstructure of the rIFG as well as its connectivity has been less in focus, especially when it comes to the consideration of potential subdivisions within this area. The present study reconstructed the structural connections of the three main subregions of the rIFG (i.e. pars opercularis, pars triangularis and pars orbitalis) using diffusion tensor imaging, and further assessed their associations with behavioral measures of inhibitory control. The results revealed a marked heterogeneity of the three subregions with respect to the pattern and extent of their connections, with the pars orbitalis showing the most widespread inter-regional connectivity, while the pars opercularis showed the lowest number of interconnected regions. When relating behavioral performance measures of a stop signal task to brain structure, the data indicated an association between the dorsal opercular connectivity and the go reaction time and the stopping accuracy.
The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations of behavioral performance measures and local gray matter characteristics. However, the white matter microstructure of the rIFG as well as its connectivity has been less in focus, especially when it comes to the consideration of potential subdivisions within this area. The present study reconstructed the structural connections of the three main subregions of the rIFG (i.e., pars opercularis, pars triangularis, and pars orbitalis) using diffusion tensor imaging, and further assessed their associations with behavioral measures of inhibitory control. The results revealed a marked heterogeneity of the three subregions with respect to the pattern and extent of their connections, with the pars orbitalis showing the most widespread inter-regional connectivity, while the pars opercularis showed the lowest number of interconnected regions. When relating behavioral performance measures of a stop signal task to brain structure, the data indicated an association between the dorsal opercular connectivity and the go reaction time and the stopping accuracy.
The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations of behavioral performance measures and local gray matter characteristics. However, the white matter microstructure of the rIFG as well as its connectivity has been less in focus, especially when it comes to the consideration of potential subdivisions within this area. The present study reconstructed the structural connections of the three main subregions of the rIFG (i.e., pars opercularis, pars triangularis, and pars orbitalis) using diffusion tensor imaging, and further assessed their associations with behavioral measures of inhibitory control. The results revealed a marked heterogeneity of the three subregions with respect to the pattern and extent of their connections, with the pars orbitalis showing the most widespread inter-regional connectivity, while the pars opercularis showed the lowest number of interconnected regions. When relating behavioral performance measures of a stop signal task to brain structure, the data indicated an association between the dorsal opercular connectivity and the go reaction time and the stopping accuracy.The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations of behavioral performance measures and local gray matter characteristics. However, the white matter microstructure of the rIFG as well as its connectivity has been less in focus, especially when it comes to the consideration of potential subdivisions within this area. The present study reconstructed the structural connections of the three main subregions of the rIFG (i.e., pars opercularis, pars triangularis, and pars orbitalis) using diffusion tensor imaging, and further assessed their associations with behavioral measures of inhibitory control. The results revealed a marked heterogeneity of the three subregions with respect to the pattern and extent of their connections, with the pars orbitalis showing the most widespread inter-regional connectivity, while the pars opercularis showed the lowest number of interconnected regions. When relating behavioral performance measures of a stop signal task to brain structure, the data indicated an association between the dorsal opercular connectivity and the go reaction time and the stopping accuracy.
Author Huster, Rene J.
Raud, Liisa
Boen, Rune
AuthorAffiliation 2 Department of Medical Genetics, Oslo University Hospital , Oslo , Norway
3 NORMENT, Division of Mental Health and Addiction, Oslo University Hospital and Institute of Clinical Medicine, University of Oslo , Oslo , Norway
1 Multimodal Imaging and Cognitive Control Lab, Department of Psychology, University of Oslo , Oslo , Norway
4 Cognitive and Translational Neuroscience Cluster, Department of Psychology, University of Oslo , Oslo , Norway
6 Sleep Unit, Department of Otorhinolaryngology/Head and Neck Surgery, Lovisenberg Diakonale Hospital , Oslo , Norway
5 Center for Lifespan Changes in Brain and Cognition, Department of Psychology, University of Oslo , Oslo , Norway
AuthorAffiliation_xml – name: 4 Cognitive and Translational Neuroscience Cluster, Department of Psychology, University of Oslo , Oslo , Norway
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– name: 5 Center for Lifespan Changes in Brain and Cognition, Department of Psychology, University of Oslo , Oslo , Norway
– name: 1 Multimodal Imaging and Cognitive Control Lab, Department of Psychology, University of Oslo , Oslo , Norway
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Keywords right inferior frontal gyrus
inhibitory control
response inhibition
structural parcelation
response execution
Language English
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Snippet The right inferior frontal gyrus (rIFG) has most strongly, although not exclusively, been associated with response inhibition, not least based on covariations...
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StartPage 787079
SubjectTerms Accuracy
Behavior
Experiments
Frontal gyrus
inhibitory control
Magnetic resonance imaging
Neural networks
Neuroimaging
Neuroscience
Reaction time task
response execution
response inhibition
right inferior frontal gyrus
structural parcelation
Substantia alba
Substantia grisea
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Title Inhibitory Control and the Structural Parcelation of the Right Inferior Frontal Gyrus
URI https://www.ncbi.nlm.nih.gov/pubmed/35280211
https://www.proquest.com/docview/2632427788
https://www.proquest.com/docview/2638951886
http://hdl.handle.net/10852/97098
https://pubmed.ncbi.nlm.nih.gov/PMC8907402
https://doaj.org/article/1ce631708ed542a698213c98b1bfd45e
Volume 16
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