Neural correlates of risk prediction error during reinforcement learning in humans

Brain; Choice Behavior; Female; Humans; Magnetic Resonance Imaging; Male; Reinforcement (Psychology); Risk-Taking; Task Performance and Analysis; Young Adult

Abstract :

[en] Behavioral studies have shown for decades that humans are sensitive to risk when making decisions. More recently, brain activities have been shown to be correlated with risky choices. But an important gap needs to be filled: How does the human brain learn which decisions are risky? In cognitive neuroscience, reinforcement learning has never been used to estimate reward variance, a common measure of risk in economics and psychology. It is thus unknown which brain regions are involved in risk learning. To address this question, participants completed a decision-making task during fMRI. They chose repetitively from four decks of cards and each selection was followed by a stochastic payoff. Expected reward and risk differed among the decks. Participants' aim was to maximize payoffs. Risk and reward prediction errors were calculated after each payoff based on a novel reinforcement learning model. For reward prediction error, the strongest correlation was found with the BOLD response in the striatum. For risk prediction error, the strongest correlation was found with the BOLD responses in the insula and inferior frontal gyrus. We conclude that risk and reward prediction errors are processed by distinct neural circuits during reinforcement learning. Additional analyses revealed that the BOLD response in the inferior frontal gyrus was more pronounced for risk aversive participants, suggesting that this region also serves to inhibit risky choices. © 2009 Elsevier Inc.

Disciplines :

Neurosciences & behavior

Author, co-author :

d'Acremont, Mathieu; National Centre of Competence in Research (NCCR) in Affective Sciences, University of Geneva, Rue des Battoirs 7, CH-1205 Geneva, Switzerland

Lu, Zhong-Lin; Dana and David Dornsife Cognitive Neuroscience Imaging Center, Brain and Creativity Institute, Department of Psychology, Los Angeles, CA 90089-1061, United States

Li, Xiangrui; Dana and David Dornsife Cognitive Neuroscience Imaging Center, Brain and Creativity Institute, Department of Psychology, Los Angeles, CA 90089-1061, United States

Van der Linden, Martial ; Université de Liège - ULiège > Département de Psychologie > Département de Psychologie

Bechara, Antoine; Dana and David Dornsife Cognitive Neuroscience Imaging Center, Brain and Creativity Institute, Department of Psychology, Los Angeles, CA 90089-1061, United States

Language :

English

Title :

Neural correlates of risk prediction error during reinforcement learning in humans

Publication date :

2009

Journal title :

NeuroImage

ISSN :

1053-8119

eISSN :

1095-9572

Publisher :

Elsevier, United States - Florida

Volume :

Issue :

Pages :

1929-1939

Peer reviewed :

Peer Reviewed verified by ORBi

Funders :

NINDS - National Institute of Neurological Disorders and Stroke

Available on ORBi :

since 26 April 2020

Statistics

Number of views

93 (1 by ULiège)

Number of downloads

254 (1 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

OpenAlex citations

Bibliography

Anderson S., Bechara A., Damasio H., Tranel D., and Damasio A. Impairment of social and moral behavior related to early damage in human prefrontal cortex. Nat. Neurosci. 2 (1999) 1032-1037
Aron A., Robbins T., and Poldrack R. Inhibition and the right inferior frontal cortex. Trends Cogn. Sci. 8 (2004) 170-177
Bechara A. The role of emotion in decision-making: evidence from neurological patients with orbitofrontal damage. Brain Cogn. 55 (2004) 30-40
Bechara A., and Damasio A. The somatic marker hypothesis: a neural theory of economic decision. Games Econom. Behav. 52 (2005) 336-372
Bechara A., Damasio A., Damasio H., and Anderson S. Insensitivity to future consequences following damage to human prefrontal cortex. Cognition 50 (1994) 7-15
Bechara A., Damasio H., Tranel D., and Damasio A. Deciding advantageously before knowing the advantageous strategy. Science 275 (1997) 1293-1295
Bechara A., Tranel D., and Damasio H. Characterization of the decision-making deficit of patients with ventromedial prefrontal cortex lesions. Brain 123 (2000) 2189
Bell D.E. Risk, return, and utility. Manag. Sci. 41 (1995) 23-30
Butler G., and Mathews A. Cognitive processes in anxiety. Adv. Behav. Res. Ther. 5 (1983) 51-62
Clark L., Manes F., Antoun N., Sahakian B., and Robbins T. The contributions of lesion laterality and lesion volume to decision-making impairment following frontal lobe damage. Neuropsychologia 41 (2003) 1474-1483
Cohen J., Perlstein W., Braver T., Nystrom L., Noll D., and Jonides J. Temporal dynamics of brain activation during a working memory task. Nature 386 (1997) 604-608
d'Acremont M., and Bossaerts P. Neurobiological studies of risk assessment: a comparison of expected utility and mean-variance approaches. Cogn. Affect. Behav. Neurosci. 8 (2008) 363-374
d'Acremont, M., Gilli, M., Bossaerts, P. (2009). Predicting risk in a multiple stimulus-reward environment. In: Dreher, J.-C., Tremblay, L. (Eds.), Handbook of Reward and Decision Making. Academic Press.
Damasio A. Descartes' Error: Emotion, Reason, and the Human Brain (1994), Grosset/Putman, New-York
Damasio H. Human Brain Anatomy in Computerized Images (2005), Oxford University Press, USA
D'Argembeau A., Van der Linden M., d'Acremont M., and Mayers I. Phenomenal characteristics of autobiographical memories for social and non-social events in social phobia. Memory 14 (2006) 637
Diaconis P., and Freedman D. On the consistency of Bayes estimates. Ann. Stat. 14 (1986) 1-26
Engle R. Autoregressive conditional heteroscedasticity with estimates of the variance of United Kingdom inflation. Econometrica 50 (1982) 987-1007
Ernst M., Bolla K., Mouratidis M., Contoreggi C., Matochik J., and Kurian V. Decision-making in a risk-taking task: a PET study. Neuropsychopharmacology 26 (2002) 682-691
Fecteau S., Knoch D., Fregni F., Sultani N., Boggio P., and Pascual-Leone A. Diminishing risk-taking behavior by modulating activity in the prefrontal cortex: a direct current stimulation study. J. Neurosci. 27 (2007) 12500
Fecteau S., Pascual-Leone A., Zald D., Liguori P., Theoret H., and Boggio P. Activation of prefrontal cortex by transcranial direct current stimulation reduces appetite for risk during ambiguous decision making. J. Neurosci. 27 (2007) 6212
Fiorillo C., Tobler P., and Schultz W. Discrete coding of reward probability and uncertainty by dopamine neurons. Science 299 (2003) 1898-1902
Friston K., Holmes A.P., and Ashburner J. Statistical Parametric Mapping (spm) [Computer software]. Available at http://www.fil.ion.ucl.ac.uk/spm/. (1999), Wellcome Department of Imaging Neuroscience, London, UK
Fukui H., Murai T., Fukuyama H., Hayashi T., and Hanakawa T. Functional activity related to risk anticipation during performance of the iowa gambling task. NeuroImage 24 (2005) 253-259
Galassi M., Davies J., Theiler J., Gough B., Jungman G., and Booth M. GNU Scientific Library Reference Manual (2006), Network Theory Limited, UK
Howard R., and Matheson J. Risk-sensitive Markov decision processes. Manag. Sci. 18 (1972) 356-369
Hsu M., Bhatt M., Adolphs R., Tranel D., and Camerer C. Neural systems responding to degrees of uncertainty in human decision-making. Science 310 (2005) 1680-1683
Huettel S., Song A., and McCarthy G. Decisions under uncertainty: probabilistic context influences activation of prefrontal and parietal cortices. J. Neurosci. 25 (2005) 3304
Huettel S., Stowe C., Gordon E., Warner B., and Platt M. Neural signatures of economic preferences for risk and ambiguity. Neuron 49 (2006) 765-775
Knoch D., Gianotti L., Pascual-Leone A., Treyer V., Regard M., and Hohmann M. Disruption of right prefrontal cortex by low-frequency repetitive transcranial magnetic stimulation induces risk-taking behavior. J. Neurosci. 26 (2006) 6469
Knutson B., and Bossaerts P. Neural antecedents of financial decisions. J. Neurosci. 27 (2007) 8174
Knutson B., Fong G., Adams C., Varner J., and Hommer D. Dissociation of reward anticipation and outcome with event-related fMRI. NeuroReport 12 (2001) 3683
Kuhnen C., and Knutson B. The neural basis of financial risk taking. Neuron 47 (2005) 763-770
LaBar K., and Cabeza R. Cognitive neuroscience of emotional memory. Nat. Rev. Neurosci. 7 (2006) 54
Li J., McClure S., King-Casas B., and Montague P. Policy adjustment in a dynamic economic game. PLoS ONE 1 (2006) e103
Manes F., Sahakian B., Clark L., Rogers R., Antoun N., and Aitken M. Decision-making processes following damage to the prefrontal cortex. Brain 125 (2002) 624
Markowitz H. Portfolio selection. J. Finance 7 (1952) 77-91
McClure S., Berns G., and Montague P. Temporal prediction errors in a passive learning task activate human striatum. Neuron 38 (2003) 339-346
McCoy A., and Platt M. Risk-sensitive neurons in macaque posterior cingulate cortex. Nat. Neurosci. 8 9 (2005) 1220-1227
McCoy A., Crowley J., Haghighian G., Dean H., and Platt M. Saccade reward signals in posterior cingulate cortex. Neuron 40 (2003) 1031-1040
Mihatsch O., and Neuneier R. Risk-sensitive reinforcement learning. Mach. Learn. 49 (2002) 267-290
O'Doherty J., Kringelbach M., Rolls E., Hornak J., and Andrews C. Abstract reward and punishment representations in the human orbitofrontal cortex. Nat. Neurosci. 4 (2001) 95-102
O'Doherty J., Critchley H., Deichmann R., and Dolan R. Dissociating valence of outcome from behavioral control in human orbital and ventral prefrontal cortices. J. Neurosci. 23 (2003) 7931-7939
O'Doherty J., Dayan P., Schultz J., Deichmann R., Friston K., and Dolan R. Dissociable roles of ventral and dorsal striatum in instrumental conditioning. Science 304 (2004) 452-454
Oya H., Adolphs R., Kawasaki H., Bechara A., Damasio A., and Howard M. Electrophysiological correlates of reward prediction error recorded in the human prefrontal cortex. Proc. Natl. Acad. Sci. 102 (2005) 8351-8356
Paulus M., Rogalsky C., Simmons A., Feinstein J., and Stein M. Increased activation in the right insula during risk-taking decision making is related to harm avoidance and neuroticism. NeuroImage 19 (2003) 1439-1448
Preushoff K., and Bossaerts P. Adding prediction risk to the theory of reward learning. Ann. N. Y. Acad. Sci. 1104 (2007) 135-146
Preuschoff K., Quartz S., and Bossaerts P. Human insula activation reflects risk prediction errors as well as risk. J. Neurosci. 28 (2008) 2745-2752
R Development Core Team. Downloaded on http://www.r-project.org/. R: A Language and Environment for Statistical Computing (version 2.5.1) [Computer software] (2007), R Foundation for Statistical Computing, Vienna, Austria
Rode C., Cosmides L., Hell W., and Tooby J. When and why do people avoid unknown probabilities in decisions under uncertainty? Testing some predictions from optimal foraging theory. Cognition 72 (1999) 269-304
Rolls E., Critchley H., Mason R., and Wakeman E. Orbitofrontal cortex neurons: role in olfactory and visual association learning. J. Neurophysiol. 75 (1996) 1970-1981
Rolls E., McCabe C., and Redoute J. Expected value, reward outcome, and temporal difference error representations in a probabilistic decision task. Cereb. Cortex (2007)
Rothschild M., and Stiglitz J.E. Increasing risk: I. A definition. J. Econ. Theory 2 (1970) 225-243
Schultz W., Dayan P., and Montague P. A neural substrate of prediction and reward. Science 275 (1997) 1593-1599
Sharpe W. Capital asset prices: a theory of market equilibrium under conditions of risk. J. Finance 19 (1964) 425-442
Shiv B., Loewenstein G., Bechara A., Damasio H., and Damasio A. Investment behavior and the negative side of emotion. Psychol. Sci. 16 (2005) 435-439
Sutton R., and Barto A. Reinforcement Learning: An Introduction (1998), MIT Press
Talairach J., and Tournoux P. Co-Planar Stereotaxic Atlas of the Human Brain. 3-Dimensional Proportional System: An Approach to Cerebral Imaging (1988), Thieme Medical Publishers, New York
Tobler P., Fiorillo C., and Schultz W. Adaptive coding of reward value by dopamine neurons. Science 307 (2005) 1642-1645
Tomb I., Hauser M., Deldin P., and Caramazza A. Do somatic markers mediate decisions on the gambling task?. Nat. Neurosci. 5 (2002) 1103-1104
Tobler P., O'Doherty J., Dolan R., and Schultz W. Reward value coding distinct from risk attitude-related uncertainty coding in human reward systems. J. Neurophysiol. 97 (2007) 1621
van Honk J., Hermans E., Putman P., Montagne B., and Schutter D. Defective somatic markers in sub-clinical psychopathy. NeuroReport 13 (2002) 1025
Weber E., Shafir S., and Blais A. Predicting risk sensitivity in humans and lower animals: risk as variance or coefficient of variation. Psychol. Rev. 111 (2004) 430-445
Winker P., and Gilli M. Applications of optimization heuristics to estimation and modelling problems. Comput. Stat. Data Anal. 47 (2004) 211-223