A neural computational model of incentive salience

Incentive salience is a motivational property with 'magnet-like' qualities. When attributed to reward-predicting stimuli (cues), incentive salience triggers a pulse of 'wanting' and an individual is pulled toward the cues and reward. A key computational question is how incentive...

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Published in:PLoS computational biology 2009-07, Vol.5 (7), p.e1000437-e1000437
Main Authors: Zhang, Jun, Berridge, Kent C, Tindell, Amy J, Smith, Kyle S, Aldridge, J Wayne
Format: Article
Language:English
Subjects:
Algorithms
Animals
Appetite - physiology
Behavior
Behavior, Animal - physiology
Brain - physiology
Brain research
Computer simulation
Computer-generated environments
Conditioning, Classical - physiology
Dopamine - physiology
Food
Hunger
Incentive (Psychology)
Learning - physiology
Limbic System - physiology
Methods
Models, Neurological
Motivation
Neuroscience/Behavioral Neuroscience
Neuroscience/Cognitive Neuroscience
Neuroscience/Neural Homeostasis
Neuroscience/Psychology
Neuroscience/Theoretical Neuroscience
Rats
Reward
Salt
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description Incentive salience is a motivational property with 'magnet-like' qualities. When attributed to reward-predicting stimuli (cues), incentive salience triggers a pulse of 'wanting' and an individual is pulled toward the cues and reward. A key computational question is how incentive salience is generated during a cue re-encounter, which combines both learning and the state of limbic brain mechanisms. Learning processes, such as temporal-difference models, provide one way for stimuli to acquire cached predictive values of rewards. However, empirical data show that subsequent incentive values are also modulated on the fly by dynamic fluctuation in physiological states, altering cached values in ways requiring additional motivation mechanisms. Dynamic modulation of incentive salience for a Pavlovian conditioned stimulus (CS or cue) occurs during certain states, without necessarily requiring (re)learning about the cue. In some cases, dynamic modulation of cue value occurs during states that are quite novel, never having been experienced before, and even prior to experience of the associated unconditioned reward in the new state. Such cases can include novel drug-induced mesolimbic activation and addictive incentive-sensitization, as well as natural appetite states such as salt appetite. Dynamic enhancement specifically raises the incentive salience of an appropriate CS, without necessarily changing that of other CSs. Here we suggest a new computational model that modulates incentive salience by integrating changing physiological states with prior learning. We support the model with behavioral and neurobiological data from empirical tests that demonstrate dynamic elevations in cue-triggered motivation (involving natural salt appetite, and drug-induced intoxication and sensitization). Our data call for a dynamic model of incentive salience, such as presented here. Computational models can adequately capture fluctuations in cue-triggered 'wanting' only by incorporating modulation of previously learned values by natural appetite and addiction-related states.
doi_str_mv 10.1371/journal.pcbi.1000437
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In some cases, dynamic modulation of cue value occurs during states that are quite novel, never having been experienced before, and even prior to experience of the associated unconditioned reward in the new state. Such cases can include novel drug-induced mesolimbic activation and addictive incentive-sensitization, as well as natural appetite states such as salt appetite. Dynamic enhancement specifically raises the incentive salience of an appropriate CS, without necessarily changing that of other CSs. Here we suggest a new computational model that modulates incentive salience by integrating changing physiological states with prior learning. We support the model with behavioral and neurobiological data from empirical tests that demonstrate dynamic elevations in cue-triggered motivation (involving natural salt appetite, and drug-induced intoxication and sensitization). Our data call for a dynamic model of incentive salience, such as presented here. 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subjects Algorithms
Animals
Appetite - physiology
Behavior
Behavior, Animal - physiology
Brain - physiology
Brain research
Computer simulation
Computer-generated environments
Conditioning, Classical - physiology
Dopamine - physiology
Food
Hunger
Incentive (Psychology)
Learning - physiology
Limbic System - physiology
Methods
Models, Neurological
Motivation
Neuroscience/Behavioral Neuroscience
Neuroscience/Cognitive Neuroscience
Neuroscience/Neural Homeostasis
Neuroscience/Psychology
Neuroscience/Theoretical Neuroscience
Rats
Reward
Salt
title A neural computational model of incentive salience
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