Separating desire from prediction of outcome value

[1]  F. Toates A motivation model of sex addiction – Relevance to the controversy over the concept , 2022, Neuroscience & Biobehavioral Reviews.

[2]  M. Tarvainen,et al.  From skinner box to daily life: Sign-tracker phenotype co-segregates with impulsivity, compulsivity, and addiction tendencies in humans , 2022, Cognitive, Affective, & Behavioral Neuroscience.

[3]  H. Kober,et al.  Association of Drug Cues and Craving With Drug Use and Relapse: A Systematic Review and Meta-analysis. , 2022, JAMA psychiatry.

[4]  K. Berridge,et al.  Corticotropin releasing factor (CRF) systems: Promoting cocaine pursuit without distress via incentive motivation , 2022, PloS one.

[5]  D. Barch,et al.  Anhedonia in Schizophrenia. , 2022, Current topics in behavioral neurosciences.

[6]  S. Read,et al.  Modeling incentive salience in Pavlovian learning more parsimoniously using a multiple attribute model , 2021, Cognitive, Affective, & Behavioral Neuroscience.

[7]  E. Stice,et al.  Neural Vulnerability Factors That Predict Future Weight Gain , 2021, Current Obesity Reports.

[8]  R. Stark,et al.  Aberrant orbitofrontal cortex reactivity to erotic cues in Compulsive Sexual Behavior Disorder , 2021, Journal of behavioral addictions.

[9]  T. Robinson,et al.  Comment on Pohorala et al.: Sign-tracking as a predictor of addiction vulnerability , 2021, Psychopharmacology.

[10]  K. Berridge,et al.  Incentive motivation: ‘wanting’ roles of central amygdala circuitry , 2021, Behavioural Brain Research.

[11]  T. Robinson,et al.  Dopamine ‘ups and downs’ in addiction revisited , 2021, Trends in Neurosciences.

[12]  G. Pezzulo,et al.  Simulating homeostatic, allostatic and goal-directed forms of interoceptive control using active inference , 2021, Biological Psychology.

[13]  K. Berridge,et al.  Activating Corticotropin-Releasing Factor Systems in the Nucleus Accumbens, Amygdala, and Bed Nucleus of Stria Terminalis: Incentive Motivation or Aversive Motivation? , 2021, Biological Psychiatry.

[14]  G. Koob Drug Addiction: Hyperkatifeia/Negative Reinforcement as a Framework for Medications Development , 2020, Pharmacological Reviews.

[15]  Rebecca G. Boswell,et al.  The Neurobiology of Binge-eating Disorder Compared with Obesity: Implications for Differential Therapeutics. , 2020, Clinical therapeutics.

[16]  Joseph E LeDoux Thoughtful feelings , 2020, Current Biology.

[17]  K. Berridge,et al.  The central amygdala recruits mesocorticolimbic circuitry for pursuit of reward or pain , 2020, Nature Communications.

[18]  P. Vezina,et al.  An overview of commonalities in the mechanisms underlying gambling and substance use disorders , 2020, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[19]  Simon D. Fisher,et al.  Amygdala-Cortical Control of Striatal Plasticity Drives the Acquisition of Goal-Directed Action , 2020, Current Biology.

[20]  Ashley N. Gearhardt,et al.  Mapping sign-tracking and goal-tracking onto human behaviors , 2020, Neuroscience & Biobehavioral Reviews.

[21]  G. Schoenbaum,et al.  Interactions between human orbitofrontal cortex and hippocampus support model-based inference , 2020, PLoS biology.

[22]  P. Maurage,et al.  Craving is everything: An eye-tracking exploration of attentional bias in binge drinking , 2019, Journal of psychopharmacology.

[23]  Joseph M. Andreano,et al.  The tenacious brain: How the anterior mid-cingulate contributes to achieving goals , 2019, Cortex.

[24]  R. Adolphs,et al.  What is an emotion? , 1884, Current Biology.

[25]  Sidney B. Williams,et al.  A Neurobehavioral Approach to Addiction: Implications for the Opioid Epidemic and the Psychology of Addiction , 2019, Psychological science in the public interest : a journal of the American Psychological Society.

[26]  Karl J. Friston,et al.  Neurocomputational mechanisms underlying emotional awareness: Insights afforded by deep active inference and their potential clinical relevance , 2019, Neuroscience & Biobehavioral Reviews.

[27]  L. F. Barrett,et al.  The Power of Predictions: An Emerging Paradigm for Psychological Research , 2019, Current directions in psychological science.

[28]  Andy Clark,et al.  Beyond Desire? Agency, Choice, and the Predictive Mind , 2019, Australasian Journal of Philosophy.

[29]  K. Berridge Affective valence in the brain: modules or modes? , 2019, Nature Reviews Neuroscience.

[30]  Brian Knutson,et al.  Association of Neural Responses to Drug Cues With Subsequent Relapse to Stimulant Use , 2018, JAMA network open.

[31]  E. Paulesu,et al.  Hungry brains: A meta-analytical review of brain activation imaging studies on food perception and appetite in obese individuals , 2018, Neuroscience & Biobehavioral Reviews.

[32]  G. Yadid,et al.  Evidence for a differential visual M300 brain response in gamblers , 2018, Clinical Neurophysiology.

[33]  Kay M. Tye,et al.  Neural Circuit Motifs in Valence Processing , 2018, Neuron.

[34]  K. Berridge Evolving Concepts of Emotion and Motivation , 2018, Front. Psychol..

[35]  Drew B. Headley,et al.  Multi-dimensional Coding by Basolateral Amygdala Neurons , 2018, Neuron.

[36]  K. Berridge,et al.  Current perspectives on incentive salience and applications to clinical disorders , 2018, Current Opinion in Behavioral Sciences.

[37]  S. de wit,et al.  Conflicted between Goal-Directed and Habitual Control, an fMRI Investigation , 2018, eNeuro.

[38]  Benjamin T. Saunders,et al.  Dopamine neurons create Pavlovian conditioned stimuli with circuit-defined motivational properties , 2018, Nature Neuroscience.

[39]  A. Ahuja,et al.  Optogenetic activation of the central amygdala generates addiction‐like preference for reward , 2018, The European journal of neuroscience.

[40]  C. Klein What do predictive coders want? , 2018, Synthese.

[41]  P. Winkielman,et al.  Influence of Suboptimally and Optimally Presented Affective Pictures and Words on Consumption-Related Behavior , 2018, Front. Psychol..

[42]  M. Peelen,et al.  Valence, Not Utility, Underlies Reward-Driven Prioritization in Human Vision , 2017, The Journal of Neuroscience.

[43]  S. M. Fortin,et al.  Physiological state tunes mesolimbic signaling: Lessons from sodium appetite and inspiration from Randall R. Sakai , 2017, Physiology & Behavior.

[44]  Marius V Peelen,et al.  Reward Selectively Modulates the Lingering Neural Representation of Recently Attended Objects in Natural Scenes , 2017, The Journal of Neuroscience.

[45]  K. Berridge,et al.  Optogenetic Central Amygdala Stimulation Intensifies and Narrows Motivation for Cocaine , 2017, The Journal of Neuroscience.

[46]  T. Robinson,et al.  Neurobiological basis of individual variation in stimulus-reward learning , 2017, Current Opinion in Behavioral Sciences.

[47]  S. Makeig,et al.  Can Pornography be Addictive? An fMRI Study of Men Seeking Treatment for Problematic Pornography Use , 2017, Neuropsychopharmacology.

[48]  Eve H. Limbrick-Oldfield,et al.  Neural substrates of cue reactivity and craving in gambling disorder , 2017, Translational Psychiatry.

[49]  K. Berridge,et al.  Liking, wanting, and the incentive-sensitization theory of addiction. , 2016, The American psychologist.

[50]  T. Robinson,et al.  Less is more: prolonged intermittent access cocaine self-administration produces incentive-sensitization and addiction-like behavior , 2016, Psychopharmacology.

[51]  K. Berridge,et al.  Dorsolateral neostriatum contribution to incentive salience: opioid or dopamine stimulation makes one reward cue more motivationally attractive than another , 2016, The European journal of neuroscience.

[52]  Kyle S. Smith,et al.  An omission procedure reorganizes the microstructure of sign-tracking while preserving incentive salience , 2016, Learning & memory.

[53]  Wolfram Schultz,et al.  Dopamine reward prediction-error signalling: a two-component response , 2016, Nature Reviews Neuroscience.

[54]  Kurt M. Fraser,et al.  Lesions of the paraventricular nucleus of the thalamus differentially affect sign‐ and goal‐tracking conditioned responses , 2015, The European journal of neuroscience.

[55]  K. Berridge,et al.  Pleasure Systems in the Brain , 2015, Neuron.

[56]  M. Fauth-Bühler,et al.  A comparison of region-of-interest measures for extracting whole brain data using survival analysis in alcoholism as an example , 2015, Journal of Neuroscience Methods.

[57]  Morten L. Kringelbach,et al.  Reconceptualizing anhedonia: novel perspectives on balancing the pleasure networks in the human brain , 2015, Front. Behav. Neurosci..

[58]  M. Peelen,et al.  Neural Mechanisms of Incentive Salience in Naturalistic Human Vision , 2015, Neuron.

[59]  K. Berridge,et al.  Optogenetic Excitation of Central Amygdala Amplifies and Narrows Incentive Motivation to Pursue One Reward Above Another , 2014, The Journal of Neuroscience.

[60]  Jane E Joseph,et al.  The relationship between years of cocaine use and brain activation to cocaine and response inhibition cues. , 2014, Addiction.

[61]  A. Gallagher,et al.  Attentional bias to food-related visual cues: is there a role in obesity? , 2014, Proceedings of the Nutrition Society.

[62]  H. Lou,et al.  Applying incentive sensitization models to behavioral addiction , 2014, Neuroscience & Biobehavioral Reviews.

[63]  K. Brownell,et al.  Individual Differences in Striatum Activity to Food Commercials Predict Weight Gain in Adolescents , 2014, Obesity.

[64]  Timothy D. Wilson,et al.  Just think: The challenges of the disengaged mind , 2014, Science.

[65]  Kimberly S. Chiew,et al.  Mechanisms of motivation–cognition interaction: challenges and opportunities , 2014, Cognitive, affective & behavioral neuroscience.

[66]  P. Dayan,et al.  Model-based and model-free Pavlovian reward learning: Revaluation, revision, and revelation , 2014, Cognitive, affective & behavioral neuroscience.

[67]  M. Kołaczkowski,et al.  Sweet liking in patients with Parkinson's disease , 2013, Journal of the Neurological Sciences.

[68]  H. Critchley,et al.  Extending predictive processing to the body: emotion as interoceptive inference. , 2013, The Behavioral and brain sciences.

[69]  K. Berridge,et al.  Instant Transformation of Learned Repulsion into Motivational “Wanting” , 2013, Current Biology.

[70]  T. Robinson,et al.  The role of dopamine in the accumbens core in the expression of Pavlovian‐conditioned responses , 2012, The European journal of neuroscience.

[71]  T. Robinson,et al.  Quantifying Individual Variation in the Propensity to Attribute Incentive Salience to Reward Cues , 2012, PloS one.

[72]  Kent C. Berridge,et al.  What and when to “want”? Amygdala-based focusing of incentive salience upon sugar and sex , 2011, Psychopharmacology.

[73]  K. Berridge,et al.  Which cue to ‘want’? Opioid stimulation of central amygdala makes goal-trackers show stronger goal-tracking, just as sign-trackers show stronger sign-tracking , 2012, Behavioural Brain Research.

[74]  K. Berridge From prediction error to incentive salience: mesolimbic computation of reward motivation , 2012, The European journal of neuroscience.

[75]  S. Tiffany,et al.  The clinical significance of drug craving , 2012, Annals of the New York Academy of Sciences.

[76]  Kyle S. Smith,et al.  Disentangling pleasure from incentive salience and learning signals in brain reward circuitry , 2011, Proceedings of the National Academy of Sciences.

[77]  Marios Politis,et al.  Cue-induced striatal dopamine release in Parkinson's disease-associated impulsive-compulsive behaviours. , 2011, Brain : a journal of neurology.

[78]  T. Robinson,et al.  A selective role for dopamine in reward learning , 2010, Nature.

[79]  L. Chelazzi,et al.  Incentive salience in human visual attention , 2010 .

[80]  J. Rose,et al.  Reinforcing effects of nicotine and non-nicotine components of cigarette smoke , 2010, Psychopharmacology.

[81]  Evonne J. Charboneau,et al.  Obese adults have visual attention bias for food cue images: evidence for altered reward system function , 2009, International Journal of Obesity.

[82]  K. Berridge,et al.  Which Cue to “Want?” Central Amygdala Opioid Activation Enhances and Focuses Incentive Salience on a Prepotent Reward Cue , 2009, The Journal of Neuroscience.

[83]  T. Robinson,et al.  Dissociating the Predictive and Incentive Motivational Properties of Reward-Related Cues Through the Study of Individual Differences , 2009, Biological Psychiatry.

[84]  Karl J. Friston,et al.  Predictive coding under the free-energy principle , 2009, Philosophical Transactions of the Royal Society B: Biological Sciences.

[85]  Jun Zhang,et al.  A Neural Computational Model of Incentive Salience , 2009, PLoS Comput. Biol..

[86]  Y. Niv,et al.  Dialogues on prediction errors , 2008, Trends in Cognitive Sciences.

[87]  Kyle S. Smith,et al.  Ventral pallidum firing codes hedonic reward: when a bad taste turns good. , 2006, Journal of neurophysiology.

[88]  Jason M. Uslaner,et al.  The attribution of incentive salience to a stimulus that signals an intravenous injection of cocaine , 2006, Behavioural Brain Research.

[89]  L. Swanson,et al.  Anatomy of the soul as reflected in the cerebral hemispheres: Neural circuits underlying voluntary control of basic motivated behaviors , 2005, The Journal of comparative neurology.

[90]  Kent C. Berridge,et al.  Unconscious Affective Reactions to Masked Happy Versus Angry Faces Influence Consumption Behavior and Judgments of Value , 2005, Personality & social psychology bulletin.

[91]  B. Everitt,et al.  Conditioned reinforcing properties of stimuli paired with self-administered cocaine, heroin or sucrose: implications for the persistence of addictive behaviour , 2004, Neuropharmacology.

[92]  Jonathan D. Cohen,et al.  Computational roles for dopamine in behavioural control , 2004, Nature.

[93]  K. Berridge,et al.  Unconscious Emotion , 2004 .

[94]  K. Berridge,et al.  Parsing reward , 2003, Trends in Neurosciences.

[95]  K. Berridge,et al.  What is an unconscious emotion?(The case for unconscious "liking") , 2003, Cognition & emotion.

[96]  N. Chaudhri,et al.  Cue dependency of nicotine self-administration and smoking , 2001, Pharmacology Biochemistry and Behavior.

[97]  K. Berridge,et al.  Incentive Sensitization by Previous Amphetamine Exposure: Increased Cue-Triggered “Wanting” for Sucrose Reward , 2001, The Journal of Neuroscience.

[98]  Susan Schenk,et al.  Influence of a conditioned light stimulus on cocaine self-administration in rats , 2001, Psychopharmacology.

[99]  J. Mirenowicz,et al.  Dissociation of Pavlovian and instrumental incentive learning under dopamine antagonists. , 2000, Behavioral neuroscience.

[100]  T. Robbins,et al.  Acquisition, maintenance and reinstatement of intravenous cocaine self-administration under a second-order schedule of reinforcement in rats: effects of conditioned cues and continuous access to cocaine , 1998, Psychopharmacology.

[101]  Peter Dayan,et al.  A Neural Substrate of Prediction and Reward , 1997, Science.

[102]  A. Tomie Locating Reward Cue at Response Manipulandum (CAM) Induces Symptoms of Drug Abuse , 1996, Neuroscience & Biobehavioral Reviews.

[103]  K. Berridge,et al.  The neural basis of drug craving: An incentive-sensitization theory of addiction , 1993, Brain Research Reviews.

[104]  B. Gosnell Involvement of μ opioid receptors in the amygdala in the control of feeding , 1988, Neuropharmacology.

[105]  A. Dickinson,et al.  Counterconditioning of Appetitive and Defensive CRs in Rabbits , 1982, The Quarterly journal of experimental psychology. B, Comparative and physiological psychology.

[106]  H. Fibiger,et al.  Conditioned defensive burying: A new paradigm for the study of anxiolytic agents , 1981, Pharmacology Biochemistry and Behavior.

[107]  D. Bindra How adaptive behavior is produced: a perceptual-motivational alternative to response reinforcements , 1978, Behavioral and Brain Sciences.

[108]  C. Gallistel The irrelevance of past pleasure , 1978, Behavioral and Brain Sciences.

[109]  M. Cabanac Physiological Role of Pleasure , 1971, Science.

[110]  D. R. Williams,et al.  Auto-maintenance in the pigeon: sustained pecking despite contingent non-reinforcement. , 1969, Journal of the experimental analysis of behavior.

[111]  L. F. Barrett,et al.  Interoception: The Secret Ingredient. , 2021, Cerebrum : the Dana forum on brain science.

[112]  A. Lawrence,et al.  Salt Appetite, and the Influence of Opioids , 2017, Neurochemical Research.

[113]  M. Domjan,et al.  Sexual fetishism in a quail (Coturnix japonica) model system: test of reproductive success. , 2006, Journal of comparative psychology.

[114]  K. Berridge,et al.  Nucleus accumbens corticotropin-releasing factor increases cue-triggered motivation for sucrose reward: paradoxical positive incentive effects in stress? , 2006, BMC Biology.

[115]  K. Berridge Reward learning: Reinforcement, incentives, and expectations , 2000 .

[116]  S. Deutsch,et al.  Transient compulsive foraging behavior associated with crack cocaine use. , 1993, The American journal of psychiatry.

[117]  R. Ehrman,et al.  Classically conditioned responses in opioid and cocaine dependence: a role in relapse? , 1988, NIDA research monograph.

[118]  David H Zald,et al.  Science Current Directions in Psychological Parsing Anhedonia : Translational Models of Reward-processing Deficits in Psychopathology on Behalf Of: Association for Psychological Science , 2022 .