Inhibition in the face of emotion: Characterization of the spatial‐temporal dynamics that facilitate automatic emotion regulation

Emotion regulation mediates socio‐cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to emotional stimuli is an important aspect of emotion regulation; the underlying neural mechanisms of this ability have been rarely investigated. Fort...

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Published inHuman brain mapping Vol. 39; no. 7; pp. 2907 - 2916
Main Authors Taylor, Margot J., Robertson, Amanda, Keller, Anne E., Sato, Julie, Urbain, Charline, Pang, Elizabeth W.
Format Journal Article
LanguageEnglish
Published United States John Wiley & Sons, Inc 01.07.2018
John Wiley and Sons Inc
Subjects
Activation
Adult
Adults
Cognitive ability
emotion regulation
Emotions
Emotions - physiology
Executive Function - physiology
Facial Recognition - physiology
Female
Frontal gyrus
Functional Neuroimaging - methods
Hemispheric laterality
Humans
IFG
Inhibition
Inhibition (Psychology)
Magnetoencephalography
Magnetoencephalography - methods
Male
MEG
OFG
Prefrontal Cortex - diagnostic imaging
Prefrontal Cortex - physiology
Self-Control
Social Perception
temporal poles
Vigilance
Young Adult
OFG
emotion regulation
inhibition
IFG
temporal poles
MEG
Online AccessGet full text
ISSN1065-9471
1097-0193
1097-0193
DOI10.1002/hbm.24048

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Abstract Emotion regulation mediates socio‐cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to emotional stimuli is an important aspect of emotion regulation; the underlying neural mechanisms of this ability have been rarely investigated. Forty adults completed a Go/No‐go task during magnetoencephalographic (MEG) recordings, where they responded rapidly to either a blue or purple frame which contained angry or happy faces. Subjects responded to the target color in an inhibition (75% Go trials) and a vigilance condition (25% Go trials). As expected, inhibition processes showed early, sustained activation (200–450 ms) in the right inferior frontal gyrus (IFG). Emotion‐related inhibition processes showed greater activity with angry faces bilaterally in the orbital‐frontal gyri (OFG) starting at 225 ms and temporal poles from 250 ms, with right hemisphere dominance. The presence of happy faces elicited earlier activity in the right OFG. This study demonstrates that the timing of inhibition processes varies with the emotional context and that there is much greater activation in the presence of angry faces. It underscores the importance of the right IFG for inhibition processes, but the OFG in automatic emotion regulation.
AbstractList Emotion regulation mediates socio‐cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to emotional stimuli is an important aspect of emotion regulation; the underlying neural mechanisms of this ability have been rarely investigated. Forty adults completed a Go/No‐go task during magnetoencephalographic (MEG) recordings, where they responded rapidly to either a blue or purple frame which contained angry or happy faces. Subjects responded to the target color in an inhibition (75% Go trials) and a vigilance condition (25% Go trials). As expected, inhibition processes showed early, sustained activation (200–450 ms) in the right inferior frontal gyrus (IFG). Emotion‐related inhibition processes showed greater activity with angry faces bilaterally in the orbital‐frontal gyri (OFG) starting at 225 ms and temporal poles from 250 ms, with right hemisphere dominance. The presence of happy faces elicited earlier activity in the right OFG. This study demonstrates that the timing of inhibition processes varies with the emotional context and that there is much greater activation in the presence of angry faces. It underscores the importance of the right IFG for inhibition processes, but the OFG in automatic emotion regulation.
Emotion regulation mediates socio‐cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to emotional stimuli is an important aspect of emotion regulation; the underlying neural mechanisms of this ability have been rarely investigated. Forty adults completed a Go/No‐go task during magnetoencephalographic (MEG) recordings, where they responded rapidly to either a blue or purple frame which contained angry or happy faces. Subjects responded to the target color in an inhibition (75% Go trials) and a vigilance condition (25% Go trials). As expected, inhibition processes showed early, sustained activation (200–450 ms) in the right inferior frontal gyrus (IFG). Emotion‐related inhibition processes showed greater activity with angry faces bilaterally in the orbital‐frontal gyri (OFG) starting at 225 ms and temporal poles from 250 ms, with right hemisphere dominance. The presence of happy faces elicited earlier activity in the right OFG. This study demonstrates that the timing of inhibition processes varies with the emotional context and that there is much greater activation in the presence of angry faces. It underscores the importance of the right IFG for inhibition processes, but the OFG in automatic emotion regulation.
Emotion regulation mediates socio-cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to emotional stimuli is an important aspect of emotion regulation; the underlying neural mechanisms of this ability have been rarely investigated. Forty adults completed a Go/No-go task during magnetoencephalographic (MEG) recordings, where they responded rapidly to either a blue or purple frame which contained angry or happy faces. Subjects responded to the target color in an inhibition (75% Go trials) and a vigilance condition (25% Go trials). As expected, inhibition processes showed early, sustained activation (200-450 ms) in the right inferior frontal gyrus (IFG). Emotion-related inhibition processes showed greater activity with angry faces bilaterally in the orbital-frontal gyri (OFG) starting at 225 ms and temporal poles from 250 ms, with right hemisphere dominance. The presence of happy faces elicited earlier activity in the right OFG. This study demonstrates that the timing of inhibition processes varies with the emotional context and that there is much greater activation in the presence of angry faces. It underscores the importance of the right IFG for inhibition processes, but the OFG in automatic emotion regulation.Emotion regulation mediates socio-cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to emotional stimuli is an important aspect of emotion regulation; the underlying neural mechanisms of this ability have been rarely investigated. Forty adults completed a Go/No-go task during magnetoencephalographic (MEG) recordings, where they responded rapidly to either a blue or purple frame which contained angry or happy faces. Subjects responded to the target color in an inhibition (75% Go trials) and a vigilance condition (25% Go trials). As expected, inhibition processes showed early, sustained activation (200-450 ms) in the right inferior frontal gyrus (IFG). Emotion-related inhibition processes showed greater activity with angry faces bilaterally in the orbital-frontal gyri (OFG) starting at 225 ms and temporal poles from 250 ms, with right hemisphere dominance. The presence of happy faces elicited earlier activity in the right OFG. This study demonstrates that the timing of inhibition processes varies with the emotional context and that there is much greater activation in the presence of angry faces. It underscores the importance of the right IFG for inhibition processes, but the OFG in automatic emotion regulation.
Author Urbain, Charline
Robertson, Amanda
Keller, Anne E.
Sato, Julie
Taylor, Margot J.
Pang, Elizabeth W.
AuthorAffiliation 1 Department of Diagnostic Imaging The Hospital for Sick Children Toronto Ontario Canada
2 Neuroscience & Mental Health Program The Hospital for Sick Children Research Institute Toronto Ontario Canada
5 Division of Neurology The Hospital for Sick Children Toronto Ontario Canada
3 Department of Psychology University of Toronto Toronto Ontario Canada
4 Department of Medical Imaging University of Toronto Toronto Ontario Canada
6 Present address: Neuropsychology and Functional Imaging Research Group, Institute of Neuroscience, Université libre de Bruxelles Brussels Belgium
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Snippet Emotion regulation mediates socio‐cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to...
Emotion regulation mediates socio-cognitive functions and is essential for interactions with others. The capacity to automatically inhibit responses to...
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StartPage 2907
SubjectTerms Activation
Adult
Adults
Cognitive ability
emotion regulation
Emotions
Emotions - physiology
Executive Function - physiology
Facial Recognition - physiology
Female
Frontal gyrus
Functional Neuroimaging - methods
Hemispheric laterality
Humans
IFG
Inhibition
Inhibition (Psychology)
Magnetoencephalography
Magnetoencephalography - methods
Male
MEG
OFG
Prefrontal Cortex - diagnostic imaging
Prefrontal Cortex - physiology
Self-Control
Social Perception
temporal poles
Vigilance
Young Adult
Title Inhibition in the face of emotion: Characterization of the spatial‐temporal dynamics that facilitate automatic emotion regulation
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fhbm.24048
https://www.ncbi.nlm.nih.gov/pubmed/29573366
https://www.proquest.com/docview/2064155037
https://www.proquest.com/docview/2018024271
https://pubmed.ncbi.nlm.nih.gov/PMC6866369
Volume 39
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