TY - JOUR
T1 - Neural substrates of the interaction of emotional stimulus processing and motor inhibitory control
T2 - An emotional linguistic go/no-go fMRI study
AU - Goldstein, Martin
AU - Brendel, Gary
AU - Tuescher, Oliver
AU - Pan, Hong
AU - Epstein, Jane
AU - Beutel, Manfred
AU - Yang, Yihong
AU - Thomas, Katherine
AU - Levy, Kenneth
AU - Silverman, Michael
AU - Clarkin, Jonathon
AU - Posner, Michael
AU - Kernberg, Otto
AU - Stern, Emily
AU - Silbersweig, David
N1 - Copyright:
Copyright 2008 Elsevier B.V., All rights reserved.
PY - 2007/7/1
Y1 - 2007/7/1
N2 - Neural substrates of behavioral inhibitory control have been probed in a variety of animal model, physiologic, behavioral, and imaging studies, many emphasizing the role of prefrontal circuits. Likewise, the neurocircuitry of emotion has been investigated from a variety of perspectives. Recently, neural mechanisms mediating the interaction of emotion and behavioral regulation have become the focus of intense study. To further define neurocircuitry specifically underlying the interaction between emotional processing and response inhibition, we developed an emotional linguistic go/no-go fMRI paradigm with a factorial block design which joins explicit inhibitory task demand (i.e., go or no-go) with task-unrelated incidental emotional stimulus valence manipulation, to probe the modulation of the former by the latter. In this study of normal subjects focusing on negative emotional processing, we hypothesized activity changes in specific frontal neocortical and limbic regions reflecting modulation of response inhibition by negative stimulus processing. We observed common fronto-limbic activations (including orbitofrontal cortical and amygdalar components) associated with the interaction of emotional stimulus processing and response suppression. Further, we found a distributed cortico-limbic network to be a candidate neural substrate for the interaction of negative valence-specific processing and inhibitory task demand. These findings have implications for elucidating neural mechanisms of emotional modulation of behavioral control, with relevance to a variety of neuropsychiatric disease states marked by behavioral dysregulation within the context of negative emotional processing.
AB - Neural substrates of behavioral inhibitory control have been probed in a variety of animal model, physiologic, behavioral, and imaging studies, many emphasizing the role of prefrontal circuits. Likewise, the neurocircuitry of emotion has been investigated from a variety of perspectives. Recently, neural mechanisms mediating the interaction of emotion and behavioral regulation have become the focus of intense study. To further define neurocircuitry specifically underlying the interaction between emotional processing and response inhibition, we developed an emotional linguistic go/no-go fMRI paradigm with a factorial block design which joins explicit inhibitory task demand (i.e., go or no-go) with task-unrelated incidental emotional stimulus valence manipulation, to probe the modulation of the former by the latter. In this study of normal subjects focusing on negative emotional processing, we hypothesized activity changes in specific frontal neocortical and limbic regions reflecting modulation of response inhibition by negative stimulus processing. We observed common fronto-limbic activations (including orbitofrontal cortical and amygdalar components) associated with the interaction of emotional stimulus processing and response suppression. Further, we found a distributed cortico-limbic network to be a candidate neural substrate for the interaction of negative valence-specific processing and inhibitory task demand. These findings have implications for elucidating neural mechanisms of emotional modulation of behavioral control, with relevance to a variety of neuropsychiatric disease states marked by behavioral dysregulation within the context of negative emotional processing.
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U2 - 10.1016/j.neuroimage.2007.01.056
DO - 10.1016/j.neuroimage.2007.01.056
M3 - Article
C2 - 17509899
AN - SCOPUS:34250182719
SN - 1053-8119
VL - 36
SP - 1026
EP - 1040
JO - NeuroImage
JF - NeuroImage
IS - 3
ER -