Action versus valence in decision making

•Pavlovian responses couple action and valence.•This coupling interferes with instrumental learning and performance.•Action dominates valence in the striatum and dopaminergic midbrain.•Boosting dopamine enhances the dominance of action over valence in the striatum.•Boosting dopamine decreases the ex...

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Published in	Trends in cognitive sciences Vol. 18; no. 4; pp. 194 - 202
Main Authors	Guitart-Masip, Marc, Duzel, Emrah, Dolan, Ray, Dayan, Peter
Format	Journal Article
Language	English
Published	Amsterdam Elsevier Ltd 01.04.2014 Elsevier Elsevier Science
Subjects	action Biological and medical sciences Brain - physiology Cognition. Intelligence Decision Making - physiology Decision making. Choice dopamine Dopamine - physiology Fundamental and applied biological sciences. Psychology Humans instrumental Learning - physiology Movement - physiology Neuroimaging Neurology Opinion Pavlovian Psychiatry Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology striatum value action Pavlovian striatum value dopamine instrumental Human Affect affectivity Action Dopamine Response selection Decision making Central nervous system Cognition Basal ganglion Corpus striatum Review Catecholamine Encephalon Valence Neurotransmitter Comparative study
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Abstract	•Pavlovian responses couple action and valence.•This coupling interferes with instrumental learning and performance.•Action dominates valence in the striatum and dopaminergic midbrain.•Boosting dopamine enhances the dominance of action over valence in the striatum.•Boosting dopamine decreases the extent of the behavioral coupling between action and valence. The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between action and valence significantly influences appropriate and inappropriate choices and is implicated in the expression of psychiatric and neurological abnormalities, including impulsivity and addiction. We review a series of recent human behavioral, neuroimaging, and pharmacological studies whose key design feature is an orthogonal manipulation of action and valence. These studies find that the interaction between the two is subject to the critical influence of dopamine. They also challenge existing views that neural representations in the striatum focus on valence, showing instead a dominance of the anticipation of action.
AbstractList	Highlights • Pavlovian responses couple action and valence. • This coupling interferes with instrumental learning and performance. • Action dominates valence in the striatum and dopaminergic midbrain. • Boosting dopamine enhances the dominance of action over valence in the striatum. • Boosting dopamine decreases the extent of the behavioral coupling between action and valence. •Pavlovian responses couple action and valence.•This coupling interferes with instrumental learning and performance.•Action dominates valence in the striatum and dopaminergic midbrain.•Boosting dopamine enhances the dominance of action over valence in the striatum.•Boosting dopamine decreases the extent of the behavioral coupling between action and valence. The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between action and valence significantly influences appropriate and inappropriate choices and is implicated in the expression of psychiatric and neurological abnormalities, including impulsivity and addiction. We review a series of recent human behavioral, neuroimaging, and pharmacological studies whose key design feature is an orthogonal manipulation of action and valence. These studies find that the interaction between the two is subject to the critical influence of dopamine. They also challenge existing views that neural representations in the striatum focus on valence, showing instead a dominance of the anticipation of action. • Pavlovian responses couple action and valence. • This coupling interferes with instrumental learning and performance. • Action dominates valence in the striatum and dopaminergic midbrain. • Boosting dopamine enhances the dominance of action over valence in the striatum. • Boosting dopamine decreases the extent of the behavioral coupling between action and valence. The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between action and valence significantly influences appropriate and inappropriate choices and is implicated in the expression of psychiatric and neurological abnormalities, including impulsivity and addiction. We review a series of recent human behavioral, neuroimaging, and pharmacological studies whose key design feature is an orthogonal manipulation of action and valence. These studies find that the interaction between the two is subject to the critical influence of dopamine. They also challenge existing views that neural representations in the striatum focus on valence, showing instead a dominance of the anticipation of action. The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between action and valence significantly influences appropriate and inappropriate choices and is implicated in the expression of psychiatric and neurological abnormalities, including impulsivity and addiction. We review a series of recent human behavioral, neuroimaging, and pharmacological studies whose key design feature is an orthogonal manipulation of action and valence. These studies find that the interaction between the two is subject to the critical influence of dopamine. They also challenge existing views that neural representations in the striatum focus on valence, showing instead a dominance of the anticipation of action.The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between action and valence significantly influences appropriate and inappropriate choices and is implicated in the expression of psychiatric and neurological abnormalities, including impulsivity and addiction. We review a series of recent human behavioral, neuroimaging, and pharmacological studies whose key design feature is an orthogonal manipulation of action and valence. These studies find that the interaction between the two is subject to the critical influence of dopamine. They also challenge existing views that neural representations in the striatum focus on valence, showing instead a dominance of the anticipation of action. The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between action and valence significantly influences appropriate and inappropriate choices and is implicated in the expression of psychiatric and neurological abnormalities, including impulsivity and addiction. We review a series of recent human behavioral, neuroimaging, and pharmacological studies whose key design feature is an orthogonal manipulation of action and valence. These studies find that the interaction between the two is subject to the critical influence of dopamine. They also challenge existing views that neural representations in the striatum focus on valence, showing instead a dominance of the anticipation of action.
Author	Dolan, Ray Guitart-Masip, Marc Duzel, Emrah Dayan, Peter
Author_xml	– sequence: 1 givenname: Marc surname: Guitart-Masip fullname: Guitart-Masip, Marc email: marc.guitart-masip@ki.se organization: Aging Research Centre, Karolinska Institute, SE-11330 Stockholm, Sweden – sequence: 2 givenname: Emrah surname: Duzel fullname: Duzel, Emrah organization: Institute of Cognitive Neuroscience, University College London, London WC1N 3AR, UK – sequence: 3 givenname: Ray surname: Dolan fullname: Dolan, Ray organization: Wellcome Trust Centre for Neuroimaging, Institute of Neurology, University College London, London WC1N 3BG, UK – sequence: 4 givenname: Peter surname: Dayan fullname: Dayan, Peter organization: Gatsby Computational Neuroscience Unit, University College London, London W1CN 3AR, UK
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Keywords	action Pavlovian striatum value dopamine instrumental Human Affect affectivity Action Dopamine Response selection Decision making Central nervous system Cognition Basal ganglion Corpus striatum Review Catecholamine Encephalon Valence Neurotransmitter Comparative study
Language	English
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Snippet	•Pavlovian responses couple action and valence.•This coupling interferes with instrumental learning and performance.•Action dominates valence in the striatum... Highlights • Pavlovian responses couple action and valence. • This coupling interferes with instrumental learning and performance. • Action dominates valence... The selection of actions, and the vigor with which they are executed, are influenced by the affective valence of predicted outcomes. This interaction between... • Pavlovian responses couple action and valence. • This coupling interferes with instrumental learning and performance. • Action dominates valence in the...
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SubjectTerms	action Biological and medical sciences Brain - physiology Cognition. Intelligence Decision Making - physiology Decision making. Choice dopamine Dopamine - physiology Fundamental and applied biological sciences. Psychology Humans instrumental Learning - physiology Movement - physiology Neuroimaging Neurology Opinion Pavlovian Psychiatry Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology striatum value
Title	Action versus valence in decision making
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