Abstract
Motivational and hedonic impairments are core aspects of a variety of types of psychopathology. These impairments cut across diagnostic categories and may be critical to understanding major aspects of the functional impairments accompanying psychopathology. Given the centrality of motivational and hedonic systems to psychopathology, the Research Domain Criteria (RDoC) initiative includes a “positive valence” systems domain that outlines a number of constructs that may be key to understanding the nature and mechanisms of motivational and hedonic impairments in psychopathology. These component constructs include initial responsiveness to reward, reward anticipation or expectancy, incentive or reinforcement learning, effort valuation, and action selection. Here, we review behavioral and neuroimaging studies providing evidence for impairments in these constructs in individuals with psychosis versus in individuals with depressive pathology. There are important differences in the nature of reward-related and hedonic deficits associated with psychosis versus depression that have major implications for our understanding of etiology and treatment development. In particular, the literature strongly suggests the presence of impairments in in-the-moment hedonics or “liking” in individuals with depressive pathology, particularly among those who experience anhedonia. Such deficits may propagate forward and contribute to impairments in other constructs that are dependent on hedonic responses, such as anticipation, learning, effort, and action selection. Such hedonic impairments could reflect alterations in dopamine and/or opioid signaling in the striatum related to depression or specifically to anhedonia in depressed populations. In contrast, the literature points to relatively intact in-the-moment hedonic processing in psychosis, but provides much evidence for impairments in other components involved in translating reward to action selection. Particularly, individuals with schizophrenia exhibit altered reward prediction and associated striatal and prefrontal activation, impaired reward learning, and impaired reward-modulated action selection.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Abler B, Walter H et al (2006) Prediction error as a linear function of reward probability is coded in human nucleus accumbens. Neuroimage 31(2):790–795
Anderson IM, Shippen C et al (2011) State-dependent alteration in face emotion recognition in depression. Br J Psychiatry 198(4):302–308
Barch DM, Ceaser AE (2012) Cognition in schizophrenia: core psychological and neural mechanisms. Trends Cogn Sci 16:27–34
Barch DM, Dowd EC (2010) Goal representations and motivational drive in schizophrenia: the role of prefrontal-striatal interactions. Schizophr Bull 36(5):919–934
Barch DM, Sheline YI et al (2003) Working memory and prefrontal cortex dysfunction: specificity to schizophrenia compared with major depression. Biol Psychiatry 53(5):376–384
Barch DM, Treadway MT et al (2014) Effort, anhedonia, and function in schizophrenia: reduced effort allocation predicts amotivation and functional impairment. J Abnorm Psychol 123(2):387–397
Beauregard M, Paquette V et al (2006) Dysfunction in the neural circuitry of emotional self-regulation in major depressive disorder. Neuroreport 17(8):843–846
Beck SM, Locke HS et al (2010) Primary and secondary rewards differentially modulate neural activity dynamics during working memory. PloS one 5(2):e9251
Beevers CG, Worthy DA et al (2013) Influence of depression symptoms on history-independent reward and punishment processing. Psychiatry Res 207(1–2):53–60
Beninger RJ, Wasserman J et al (2003) Typical and atypical antipsychotic medications differentially affect two nondeclarative memory tasks in schizophrenic patients: a double dissociation. Schizophr Res 61(2–3):281–292
Berenbaum H, Oltmanns TF (1992) Emotional experience and expression in schizophrenia and depression. J Abnorm Psychol 101(1):37–44
Berlin I, Givry-Steiner L et al (1998) Measures of anhedonia and hedonic responses to sucrose in depressive and schizophrenic patients in comparison with healthy subjects. Eur Psychiatry 13(6):303–309
Berridge KC (2004) Motivation concepts in behavioral neuroscience. Physiol Behav 81(2):179–209
Berridge KC, Robinson TE et al (2009) Dissecting components of reward: ‘liking’, ‘wanting’, and learning. Curr Opin Pharmacol 9(1):65–73
Blanchard JJ, Bellack AS et al (1994) Affective and social-behavioral correlates of physical and social anhedonia in schizophrenia. J Abnorm Psychol 103(4):719–728
Blanchard JJ, Horan WP et al (2001) Diagnostic differences in social anhedonia: a longitudinal study of schizophrenia and major depressive disorder. J Abnorm Psychol 110(3):363–371
Botvinick M, Braver T (2015) Motivation and cognitive control: from behavior to neural mechanism. Annu Rev Psychol 66:83–113
Botvinick MM, Huffstetler S et al (2009) Effort discounting in human nucleus accumbens. Cogn Affect Behav Neurosci 9(1):16–27
Bowie CR, Reichenberg A et al (2006) Determinants of real-world functional performance in schizophrenia subjects: correlations with cognition, functional capacity, and symptoms. Am J Psychiatry 163(3):418–425
Braver TS (2012) The variable nature of cognitive control: a dual mechanisms framework. Trends Cogn Sci 16(2):106–113
Braver TS, Cohen JD (1999) Dopamine, cognitive control, and schizophrenia: the gating model. Progr Brain Res 121:327–349
Bress JN, Smith E et al (2012) Neural response to reward and depressive symptoms in late childhood to early adolescence. Biol Psychol 89(1):156–162
Bress JN, Foti D et al (2013) Blunted neural response to rewards prospectively predicts depression in adolescent girls. Psychophysiology 50(1):74–81
Burbridge JA, Barch DM (2007) Anhedonia and the experience of emotion in individuals with schizophrenia. J Abnorm Psychol 116(1):30–42
Burgdorf J, Panksepp J (2006) The neurobiology of positive emotions. Neurosci Biobehav Rev 30(2):173–187
Bylsma LM, Morris BH et al (2008) A meta-analysis of emotional reactivity in major depressive disorder. Clin Psychol Rev 28(4):676–691
Camardese G, Di Giuda D et al (2014) Imaging studies on dopamine transporter and depression: a review of literature and suggestions for future research. J Psychiatr Res 51:7–18
Cannon DM, Klaver JM et al (2009) Dopamine type-1 receptor binding in major depressive disorder assessed using positron emission tomography and [11C]NNC-112. Neuropsychopharmacology 34(5):1277–1287
Carlson JM, Foti D et al (2011) Ventral striatal and medial prefrontal BOLD activation is correlated with reward-related electrocortical activity: a combined ERP and fMRI study. NeuroImage 57(4):1608–1616
Cavanagh JF, Bismark AJ et al (2011) Larger error signals in major depression are associated with better avoidance learning. Front Psychol 2:331
Ceaser AE, Goldberg TE et al (2008) Set-shifting ability and schizophrenia: a marker of clinical illness or an intermediate phenotype? Biol Psychiatry 64(9):782–788
Cella M, Dymond S et al (2010) Impaired flexible decision-making in major depressive disorder. J Affect Disord 124(1–2):207–210
Chapman LJ, Chapman JP et al (1994) Putatively psychosis-prone subjects 10 years later. J Abnorm Psychol 103(2):171–183
Chase HW, Frank MJ et al (2010) Approach and avoidance learning in patients with major depression and healthy controls: relation to anhedonia. Psychol Med 40(3):433–440
Chase HW, Nusslock R et al (2013) Dissociable patterns of abnormal frontal cortical activation during anticipation of an uncertain reward or loss in bipolar versus major depression. Bipolar Disord 15(8):839–854
Cheng GL, Tang JC et al (2012) Schizophrenia and risk-taking: impaired reward but preserved punishment processing. Schizophr Res 136(1–3):122–127
Chentsova-Dutton Y, Hanley K (2010) The effects of anhedonia and depression on hedonic responses. Psychiatry Res 179(2):176–180
Cicero DC, Martin EA et al (2014) Reinforcement learning deficits in people with schizophrenia persist after extended trials. Psychiatry Res 220(3):760–764
Clepce M, Gossler A et al (2010) The relation between depression, anhedonia and olfactory hedonic estimates–a pilot study in major depression. Neurosci Lett 471(3):139–143
Clery-Melin ML, Schmidt L et al (2011) Why don’t you try harder? An investigation of effort production in major depression. PLoS One 6(8):e23178
Cohen AS, Minor KS (2010) Emotional experience in patients with schizophrenia revisited: meta-analysis of laboratory studies. Schizophr Bull 36(1):143–150
Collins AG, Brown JK et al (2014) Working memory contributions to reinforcement learning impairments in schizophrenia. J Neurosci 34(41):13747–13756
Connolly KR, Thase ME (2012) Emerging drugs for major depressive disorder. Expert Opin Emerg Drugs 17(1):105–126
Cools R, Clark L et al (2002) Defining the neural mechanisms of probabilistic reversal learning using event-related functional magnetic resonance imaging. J Neurosci 22(11):4563–4567
Cools R, Lewis SJ et al (2007) L-DOPA disrupts activity in the nucleus accumbens during reversal learning in Parkinson’s disease. Neuropsychopharmacology 32(1):180–189
Crespo-Facorro B, Paradiso S et al (2001) Neural mechanisms of anhedonia in schizophrenia. J Am Med Assoc 286(4):427–435
Croxson PL, Walton ME et al (2009) Effort-based cost-benefit valuation and the human brain. J Neurosci 29(14):4531–4541
Croxson PL, Walton ME et al (2014) Unilateral medial frontal cortex lesions cause a cognitive decision-making deficit in rats. Eur J Neurosci 40(12):3757–3765
Curtis CE, Lebow B et al (1999) Acoustic startle reflex in schizophrenic patients and their first-degree relatives: evidence of normal emotional modulation. Psychophysiology 36:469–475
Culbreth AJ, Gold JM et al (in submission). Impaired activation in cognitive control regions predicts reversal learning in schizophrenia.
Cuthbert BN, Insel TR (2010) Toward new approaches to psychotic disorders: the NIMH research domain criteria project. Schizophr Bull 36(6):1061–1062
Cuthbert BN, Kozak MJ (2013) Constructing constructs for psychopathology: the NIMH research domain criteria. J Abnorm Psychol 122(3):928–937
Daw ND, Gershman SJ et al (2011) Model-based influences on humans’ choices and striatal prediction errors. Neuron 69(6):1204–1215
Dayan P, Balleine BW (2002) Reward, motivation, and reinforcement learning. Neuron 36:285–298
Delawalla Z, Barch DM et al (2006) Factors mediating cognitive deficits and psychopathology among siblings of individuals with schizophrenia. Schizophr Bull 32:525–537
Dias R, Robbins TW et al (1996) Dissociation in prefrontal cortex of affective and attentional shifts. Nature 380:69–72
Dichter GS, Felder JN et al (2009) The effects of psychotherapy on neural responses to rewards in major depression. Biol Psychiatry 66(9):886–897
Dichter GS, Smoski MJ et al (2010) Unipolar depression does not moderate responses to the sweet taste test. Depress Anxiety 27(9):859–863
Dichter GS, Kozink RV et al (2012) Remitted major depression is characterized by reward network hyperactivation during reward anticipation and hypoactivation during reward outcomes. J Affect Disord 136(3):1126–1134
Docx L, de la Asuncion J et al (2015) Effort discounting and its association with negative symptoms in schizophrenia. Cogn Neuropsychiatry 20(2):172–185
Doll BB, Simon DA et al (2012) The ubiquity of model-based reinforcement learning. Curr Opin Neurobiol 22(6):1075–1081
Dowd E, Barch DM (2010) Subjective emotional experience in schizophrenia: neural and behavioral markers. Biol Psychiatry 67(10):902–911
Dowd EC, Barch DM (2012) Pavlovian reward prediction and receipt in schizophrenia: relationship to anhedonia. PloS one 7(5):e35622
Downar J, Geraci J et al (2014) Anhedonia and reward-circuit connectivity distinguish nonresponders from responders to dorsomedial prefrontal repetitive transcranial magnetic stimulation in major depression. Biol Psychiatry 76(3):176–185
Elliott R, McKenna PJ et al (1995) Neuropsychological evidence for frontostriatal dysfunction in schizophrenia. Psychol Med 25(3):619–630
Erk S, Mikschl A et al (2010) Acute and sustained effects of cognitive emotion regulation in major depression. J Neurosci 30(47):15726–15734
Esslinger C, Englisch S et al (2012) Ventral striatal activation during attribution of stimulus saliency and reward anticipation is correlated in unmedicated first episode schizophrenia patients. Schizophr Res 140(1–3):114–121
Evans CE, Bowman CH et al (2005) Subjective awareness on the Iowa gambling task: the key role of emotional experience in schizophrenia. J Clin Exp Neuropsychol 27(6):656–664
Farrar AM, Segovia KN et al (2010) Nucleus accumbens and effort-related functions: behavioral and neural markers of the interactions between adenosine A2A and dopamine D2 receptors. Neuroscience 166(4):1056–1067
Fellows LK, Farah MJ (2003) Ventromedial frontal cortex mediates affective shifting in humans: evidence from a reversal learning paradigm. Brain 126(Pt 8):1830–1837
Fellows LK, Farah MJ (2005) Different underlying impairments in decision-making following ventromedial and dorsolateral frontal lobe damage in humans. Cereb Cortex 15(1):58–63
Fenton WS, McGlashan TH (1991) Natural history of schizophrenia subtypes. II. Positive and negative symptoms and long-term course. Arch Gen Psychiatry 48(11):978–986
Fervaha G, Agid O et al (2013a) Impairments in both reward and punishment guided reinforcement learning in schizophrenia. Schizophr Res 150(2–3):592–593
Fervaha G, Graff-Guerrero A et al (2013b) Incentive motivation deficits in schizophrenia reflect effort computation impairments during cost-benefit decision-making. J Psychiatr Res 47(11):1590–1596
Forbes EE, Hariri AR et al (2009) Altered striatal activation predicting real-world positive affect in adolescent major depressive disorder. Am J Psychiatry 166(1):64–73
Fornito A, Yoon J et al (2011) General and specific functional connectivity disturbances in first-episode schizophrenia during cognitive control performance. Biol Psychiatry 70(1):64–72
Foti D, Hajcak G (2009) Depression and reduced sensitivity to non-rewards versus rewards: evidence from event-related potentials. Biol Psychol 81(1):1–8
Foti D, Kotov R et al (2011a) Abnormal neural sensitivity to monetary gains versus losses among adolescents at risk for depression. J Abnorm Child Psychol 39(7):913–924
Foti D, Weinberg A et al (2011b) Event-related potential activity in the basal ganglia differentiates rewards from nonrewards: response to commentary. Hum Brain Mapp 32(12):2267–2269
Foti D, Weinberg A et al (2011c) Event-related potential activity in the basal ganglia differentiates rewards from nonrewards: temporospatial principal components analysis and source localization of the feedback negativity. Hum Brain Mapp 32(12):2207–2216
Foti D, Carlson JM et al (2014) Reward dysfunction in major depression: multimodal neuroimaging evidence for refining the melancholic phenotype. Neuroimage 101:50–58
Frank MJ, O’Reilly RC (2006) A mechanistic account of striatal dopamine function in human cognition: psychopharmacological studies with cabergoline and haloperidol. Behav Neurosci 120(3): 497–517
Frank MJ, Loughry B et al (2001) Interactions between frontal cortex and basal ganglia in working memory: a computational model. Cogn, Affect Behav Neurosci 1(2):137–160
Frank MJ, Seeberger LC et al (2004) By carrot or by stick: cognitive reinforcement learning in parkinsonism. Science 306(5703):1940–1943
Fusar-Poli P, Meyer-Lindenberg A (2013) Striatal presynaptic dopamine in schizophrenia, part II: meta-analysis of [(18)F/(11)C]-DOPA PET studies. Schizophr Bull 39(1):33–42
Gard DE, Germans M et al (2006) Anticipatory and consummatory components of the experience of pleasure: a scale development study. J Pers Res 40:1086–1102
Gard DE, Kring AM et al (2007) Anhedonia in schizophrenia: distinctions between anticipatory and consummatory pleasure. Schizophr Res 93(1–3):253–260
Gard DE, Sanchez AH et al (2014) Do people with schizophrenia have difficulty anticipating pleasure, engaging in effortful behavior, or both? J Abnorm Psychol 123(4):771–782
Gilleen J, Shergill SS et al (2014). Impaired subjective well-being in schizophrenia is associated with reduced anterior cingulate activity during reward processing. Psychol Med: 1–12.
Glahn DC, Ragland JD et al (2005) Beyond hypofrontality: A quantitative meta-analysis of functional neuroimaging studies of working memory in schizophrenia. Hum Brain Mapp 25(1):60–69
Glahn DC, Laird AR et al (2008) Meta-analysis of gray matter anomalies in schizophrenia: application of anatomic likelihood estimation and network analysis. Biol Psychiatry 64(9):774–781
Glascher J, Daw N et al (2010) States versus rewards: dissociable neural prediction error signals underlying model-based and model-free reinforcement learning. Neuron 66(4):585–595
Glatt SJ, Stone WS et al (2006) Psychopathology, personality traits and social development of young first-degree relatives of patients with schizophrenia. Br J Psychiatry 189:337–345
Gold JM, Strauss GP et al (2013) Negative symptoms of schizophrenia are associated with abnormal effort-cost computations. Biol Psychiatry
Gold JM, Kool W et al (2014) Cognitive effort avoidance and detection in people with schizophrenia. Cogn Affect Behav Neurosci:1–10
Gold JM, Waltz JA et al (2008) Reward processing in schizophrenia: a deficit in the representation of value. Schizophr Bull 34(5):835–847
Gold JM, Waltz JA et al (2012) Negative symptoms and the failure to represent the expected reward value of actions: behavioral and computational modeling evidence. Arch Gen Psychiatry 69(2):129–138
Gooding DC, Tallent KA et al (2005) Clinical status of at-risk individuals 5 years later: further validation of the psychometric high-risk strategy. J Abnorm Psychol 114(1):170–175
Gorka SM, Huggins AA et al (2014) Neural response to reward anticipation in those with depression with and without panic disorder. J Affect Disord 164:50–56
Gotlib IH, Hamilton JP et al (2010) Neural processing of reward and loss in girls at risk for major depression. Arch Gen Psychiatry 67(4):380–387
Gradin VB, Kumar P et al (2011) Expected value and prediction error abnormalities in depression and schizophrenia. Brain: J Neurol 134(Pt 6):1751–1764
Green MF, Satz P et al (1992) Wisconsin card sorting test performance in schizophrenia: remediation of a stubborn deficit. Am J Psychiatry 149(1):62–67
Grimm O, Vollstadt-Klein S et al (2012) Reduced striatal activation during reward anticipation due to appetite-provoking cues in chronic schizophrenia: a fMRI study. Schizophr Res 134(2–3):151–157
Grimm O, Heinz A et al (2014) Striatal response to reward anticipation: evidence for a systems-level intermediate phenotype for schizophrenia. JAMA Psychiatry 71(5):531–539
Halari R, Simic M et al (2009) Reduced activation in lateral prefrontal cortex and anterior cingulate during attention and cognitive control functions in medication-naive adolescents with depression compared to controls. J Child Psychol Psychiatry 50(3):307–316
Hall J, Harris JM et al (2007) Emotional memory in schizophrenia. Neuropsychologia 45(6):1152–1159
Hall GB, Milne AM et al (2014) An fMRI study of reward circuitry in patients with minimal or extensive history of major depression. Eur Arch Psychiatry Clin Neurosci 264(3):187–198
Han G, Klimes-Dougan B et al (2012) Selective neurocognitive impairments in adolescents with major depressive disorder. J Adolesc 35(1):11–20
Hardin MG, Schroth E et al (2007) Incentive-related modulation of cognitive control in healthy, anxious, and depressed adolescents: development and psychopathology related differences. J Child Psychol Psychiatry 48(5):446–454
Hartmann MN, Hager OM et al (2014) Apathy but not diminished expression in schizophrenia is associated with discounting of monetary rewards by physical effort. Schizophr Bull
Hazy TE, Frank MJ et al (2007) Towards an executive without a homunculus: computational models of the prefrontal cortex/basal ganglia system. Philos Trans R Soc Lond B Biol Sci 362(1485):1601–1613
Heerey EA, Gold JM (2007) Patients with schizophrenia demonstrate dissociation between affective experience and motivated behavior. J Abnorm Psychol 116(2):268–278
Heerey EA, Bell-Warren KR et al (2008) Decision-making impairments in the context of intact reward sensitivity in schizophrenia. Biol Psychiatry 64(1):62–69
Hellman SG, Kern RS et al (1998) Monetary reinforcement and Wisconsin card sorting performance in schizophrenia: why show me the money? Schizophr Res 34(1–2):67–75
Henriques JB, Glowacki JM et al (1994) Reward fails to alter response bias in depression. J Abnorm Psychol 103:460–466
Herbener ES, Harrow M et al (2005) Change in the relationship between anhedonia and functional deficits over a 20-year period in individuals with schizophrenia. Schizophr Res 75(1):97–105
Herbener ES, Rosen C et al (2007) Failure of positive but not negative emotional valence to enhance memory in schizophrenia. J Abnorm Psychol 116(1):43–55
Herzallah MM, Moustafa AA et al (2010) Depression impairs learning whereas anticholinergics impair transfer generalization in Parkinson patients tested on dopaminergic medications. Cogn Behav Neurol 23(2):98–105
Herzallah MM, Moustafa AA et al (2013a) Learning from negative feedback in patients with major depressive disorder is attenuated by SSRI antidepressants. Front Integr Neurosci 7:67
Herzallah MM, Moustafa AA et al (2013b) Depression impairs learning, whereas the selective serotonin reuptake inhibitor, paroxetine, impairs generalization in patients with major depressive disorder. J Affect Disord 151(2):484–492
Hillman KL, Bilkey DK (2010) Neurons in the rat anterior cingulate cortex dynamically encode cost-benefit in a spatial decision-making task. J Neurosci 30(22):7705–7713
Hillman KL, Bilkey DK (2012) Neural encoding of competitive effort in the anterior cingulate cortex. Nat Neurosci 15(9):1290–1297
Horan WP, Foti D et al (2011) Impaired neural response to internal but not external feedback in schizophrenia. Psychol Med: 1–11
Horan WP, Green MF et al (2006) Does anhedonia in schizophrenia reflect faulty memory for subjectively experienced emotions? J Abnorm Psychol 115(3):496–508
Hornak J, O’Doherty J et al (2004) Reward-related reversal learning after surgical excisions in orbito-frontal or dorsolateral prefrontal cortex in humans. J Cogn Neurosci 16(3):463–478
Hosking JG, Cocker PJ et al (2014a) Dissociable contributions of anterior cingulate cortex and basolateral amygdala on a rodent cost/benefit decision-making task of cognitive effort. Neuropsychopharmacology 39(7):1558–1567
Hosking JG, Floresco SB et al (2014b) Dopamine antagonism decreases willingness to expend physical, but not cognitive, effort: a comparison of two rodent cost/benefit decision-making tasks. Neuropsychopharmacology
Hosking JG, Cocker PJ et al (2015) Prefrontal cortical inactivations decrease willingness to expend cognitive effort on a rodent cost/benefit decision-making task. Cereb Cortex
Howes OD, Kapur S (2009) The dopamine hypothesis of schizophrenia: version III–the final common pathway. Schizophr Bull 35(3):549–562
Howes OD, Kambeitz J et al (2012) The nature of dopamine dysfunction in schizophrenia and what this means for treatment. Arch Gen Psychiatry 69(8):776–786
Hutton SB, Puri BK et al (1998) Executive function in first-episode schizophrenia. Psychol Med 28(2):463–473
Insel T, Cuthbert B et al (2010) Research domain criteria (RDoC): toward a new classification framework for research on mental disorders. Am J Psychiatry 167(7):748–751
Insel C, Reinen J et al (2014) Antipsychotic dose modulates behavioral and neural responses to feedback during reinforcement learning in schizophrenia. Cogn Affect Behav Neurosci 14(1):189–201
Jazbec S, McClure E et al (2005) Cognitive control under contingencies in anxious and depressed adolescents: an antisaccade task. Biol Psychiatry 58(8):632–639
Jazbec S, Pantelis C et al (2007) Intra-dimensional/extra-dimensional set-shifting performance in schizophrenia: impact of distractors. Schizophr Res 89(1–3):339–349
Jimura K, Locke HS et al (2010) Prefrontal cortex mediation of cognitive enhancement in rewarding motivational contexts. Proc Natl Acad Sci United States Am 107(19):8871–8876
Johnstone T, van Reekum CM et al (2007) Failure to regulate: counterproductive recruitment of top-down prefrontal-subcortical circuitry in major depression. J Neurosci 27(33):8877–8884
Joyce E, Hutton S et al (2002) Executive dysfunction in first-episode schizophrenia and relationship to duration of untreated psychosis: the West London Study. Br J Psychiatry Suppl 43:s38–s44
Juckel G, Schlagenhauf F et al (2006a) Dysfunction of ventral striatal reward prediction in schizophrenic patients treated with typical, not atypical, neuroleptics. Psychopharmacology (Berl) 187(2):222–228
Juckel G, Schlagenhauf F et al (2006b) Dysfunction of ventral striatal reward prediction in schizophrenia. Neuroimage 29(2):409–416
Juckel G, Friedel E et al (2012) Ventral striatal activation during reward processing in subjects with ultra-high risk for schizophrenia. Neuropsychobiology 66(1):50–56
Kanske P, Heissler J et al (2012) Neural correlates of emotion regulation deficits in remitted depression: the influence of regulation strategy, habitual regulation use, and emotional valence. Neuroimage 61(3):686–693
Keedwell PA, Andrew C et al (2005) The neural correlates of anhedonia in major depressive disorder. Biol Psychiatry 58(11):843–853
Kellendonk C, Simpson EH et al (2006) Transient and selective overexpression of dopamine D2 receptors in the striatum causes persistent abnormalities in prefrontal cortex functioning. Neuron 49(4):603–615
Keri S, Kelemen O et al (2000) Schizophrenics know more than they can tell: probabilistic classification learning in schizophrenia. Psychol Med 30(1):149–155
Keri S, Juhasz A et al (2005a) Habit learning and the genetics of the dopamine D3 receptor: evidence from patients with schizophrenia and healthy controls. Behav Neurosci 119(3):687–693
Keri S, Nagy O et al (2005b) Dissociation between medial temporal lobe and basal ganglia memory systems in schizophrenia. Schizophr Res 77(2–3):321–328
Kern RS, Green MF et al (1995) Modification of performance on the span of apprehension, a putative marker of vulnerability to schizophrenia. J Abnorm Psychol 104(2):385–389
Kester HM, Sevy S et al (2006) Decision-making impairments in adolescents with early-onset schizophrenia. Schizophr Res 85(1–3):113–123
Kim YT, Lee KU et al (2009) Deficit in decision-making in chronic, stable schizophrenia: from a reward and punishment perspective. Psychiatry Investig 6(1):26–33
Kirsch P, Ronshausen S et al (2007) The influence of antipsychotic treatment on brain reward system reactivity in schizophrenia patients. Pharmacopsychiatry 40(5):196–198
Knutson B, Westdorp A et al (2000) FMRI visualization of brain activity during a monetary incentive delay task. NeuroImage 12:20–27
Knutson B, Fong GW et al (2001) Dissociation of reward anticipation and outcome with event-related fMRI. Neuroreport 12(17):3683–3687
Knutson B, Bhanji JP et al (2008) Neural responses to monetary incentives in major depression. Biol Psychiatry 63(7):686–692
Kobayashi S, Nomoto K et al (2006) Influences of rewarding and aversive outcomes on activity in macaque lateral prefrontal cortex. Neuron 51(6):861–870
Koch K, Schachtzabel C et al (2009) Altered activation in association with reward-related trial-and-error learning in patients with schizophrenia. Neuroimage 50(1):223–232
Krawczyk DC, Gazzaley A et al (2007) Reward modulation of prefrontal and visual association cortex during an incentive working memory task. Brain Res 1141:168–177
Kring AM, Barch DM (2014) The motivation and pleasure dimension of negative symptoms: neural substrates and behavioral outputs. Eur Neuropsychopharmacol 24(5):725–736
Kring AM, Moran EK (2008) Emotional response deficits in schizophrenia: insights from affective science. Schizophr Bull 34(5):819–834
Kring AM, Kerr SL et al (1993) Flat affect in schizophrenia does not reflect diminished subjective experience of emotion. J Abnorm Psychol 102:507–517
Kring AM, Germans Gard M et al (2011) Emotion deficits in schizophrenia: timing matters. J Abnorm Psychol 120(1):79–87
Kujawa A, Proudfit GH et al (2014) Neural reactivity to rewards and losses in offspring of mothers and fathers with histories of depressive and anxiety disorders. J Abnorm Psychol 123(2):287–297
Kumar P, Waiter G et al (2008) Abnormal temporal difference reward-learning signals in major depression. Brain: J Neurol 131(Pt 8):2084–2093
Kunisato Y, Okamoto Y et al (2012) Effects of depression on reward-based decision making and variability of action in probabilistic learning. J Behav Ther Exp Psychiatry 43(4):1088–1094
Kurtz MM (2012) Cognitive remediation for schizophrenia: current status, biological correlates and predictors of response. Expert Rev Neurother 12(7):813–821
Kwapil TR, Miller MB et al (1997) Magical ideation and social anhedonia as predictors of psychosis proneness: a partial replication. J Abnorm Psychol 106(3):491–495
Lalanne L, Ayranci G et al (2014) The kappa opioid receptor: from addiction to depression, and back. Front Psychiatry 5:170
Lee Y, Kim YT et al (2007) Dissociation of emotional decision-making from cognitive decision-making in chronic schizophrenia. Psychiatry Res 152(2–3):113–120
Lee SW, Shimojo S et al (2014) Neural computations underlying arbitration between model-based and model-free learning. Neuron 81(3):687–699
Lesh TA, Westphal AJ et al (2013) Proactive and reactive cognitive control and dorsolateral prefrontal cortex dysfunction in first episode schizophrenia. Neuroimage Clin 2:590–599
Li YC, Kellendonk C et al (2011) D2 receptor overexpression in the striatum leads to a deficit in inhibitory transmission and dopamine sensitivity in mouse prefrontal cortex. Proc Natl Acad Sci U S A 108(29):12107–12112
Liu WH, Wang LZ et al (2014) The influence of anhedonia on feedback negativity in major depressive disorder. Neuropsychologia 53:213–220
Liverant GI, Sloan DM et al (2014) Associations among smoking, anhedonia, and reward learning in depression. Behav Ther 45(5):651–663
Macoveanu J, Knorr U et al (2014) Altered reward processing in the orbitofrontal cortex and hippocampus in healthy first-degree relatives of patients with depression. Psychol Med 44(6):1183–1195
Maddox WT, Gorlick MA et al (2012) Depressive symptoms enhance loss-minimization, but attenuate gain-maximization in history-dependent decision-making. Cognition 125(1):118–124
Manes F, Sahakian B et al (2002) Decision-making processes following damage to the prefrontal cortex. Brain 125(Pt 3):624–639
Mann CL, Footer O et al (2013) Spared and impaired aspects of motivated cognitive control in schizophrenia. J Abnorm Psychol 122(3):745–755
Martino DJ, Bucay D et al (2007) Neuropsychological frontal impairments and negative symptoms in schizophrenia. Psychiatry Res 152(2–3):121–128
Mathews JR, Barch DM (2004) Episodic memory for emotional and nonemotional words in schizophrenia. Cogn Emot 18(6):721–740
McCabe C, Cowen PJ et al (2009) Neural representation of reward in recovered depressed patients. Psychopharmacology (Berl) 205(4):667–677
McCabe C, Woffindale C et al (2012) Neural processing of reward and punishment in young people at increased familial risk of depression. Biol Psychiatry 72(7):588–594
McClure SM, Berns GS et al (2003) Temporal prediction errors in a passive learning task activate human striatum. Neuron 38(2):339–346
McFarland BR, Klein DN (2009) Emotional reactivity in depression: diminished responsiveness to anticipated reward but not to anticipated punishment or to nonreward or avoidance. Depression Anxiety 26(2):117–122
McGuire JT, Botvinick MM (2010) Prefrontal cortex, cognitive control, and the registration of decision costs. Proc Natl Acad Sci USA 107(17):7922–7926
Miller EK, Cohen JD (2001) An integrative theory of prefrontal cortex function. Ann Rev Neurosci 21:167–202
Minzenberg MJ, Laird AR et al (2009) Meta-analysis of 41 functional neuroimaging studies of executive function in schizophrenia. Arch Gen Psychiatry 66(8):811–822
Montague PR, Sejnowski TJ (1994) The predictive brain: temporal coincidence and temporal order in synaptic learning mechanisms. Learn Memory 1:1–33
Montague PR, Dayan P et al (1996) A framework for mesencephalic dopamine systems based on predictive Hebbian learning. J Neurosci 16:1936–1947
Moran EK, Mehta N et al (2012) Emotional responding in depression: distinctions in the time course of emotion. Cogn Emot 26(7):1153–1175
Morgan JK, Olino TM et al (2013) Neural response to reward as a predictor of increases in depressive symptoms in adolescence. Neurobiol Dis 52:66–74
Morris RW, Vercammen A et al (2012) Disambiguating ventral striatum fMRI-related BOLD signal during reward prediction in schizophrenia. Mol Psychiatry 17(3): 235:280–239.
Morris SE, Heerey EA et al (2008) Learning-related changes in brain activity following errors and performance feedback in schizophrenia. Schizophr Res 99(1–3):274–285
Morris SE, Holroyd CB et al (2011) Dissociation of response and feedback negativity in schizophrenia: electrophysiological and computational evidence for a deficit in the representation of value. Front Hum Neurosci 5:123
Mote J, Minzenberg MJ et al (2014) Deficits in anticipatory but not consummatory pleasure in people with recent-onset schizophrenia spectrum disorders. Schizophr Res 159(1):76–79
Mucci A, Dima D et al (2015) Is avolition in schizophrenia associated with a deficit of dorsal caudate activity? A functional magnetic resonance imaging study during reward anticipation and feedback. Psychol Med: 1–14
Murphy NP (2015) Dynamic measurement of extracellular opioid activity: status quo, challenges, and significance in rewarded behaviors. ACS Chem Neurosci 6(1):94–107
Murphy FC, Michael A et al (2003) Neuropsychological impairment in patients with major depressive disorder: the effects of feedback on task performance. Psychol Med 33(3):455–467
Murray GK, Corlett PR et al (2008) Substantia nigra/ventral tegmental reward prediction error disruption in psychosis. Mol Psychiatry 13(3):267–276
Must A, Szabo Z et al (2006) Sensitivity to reward and punishment and the prefrontal cortex in major depression. J Affect Disord 90(2–3):209–215
Must A, Horvath S et al (2013) The Iowa gambling task in depression—what have we learned about sub-optimal decision-making strategies? Front Psychol 4:732
Nelson BD, McGowan SK et al (2013) Biomarkers of threat and reward sensitivity demonstrate unique associations with risk for psychopathology. J Abnorm Psychol 122(3):662–671
Nelson BD, Shankman SA et al (2014) Intolerance of uncertainty mediates reduced reward anticipation in major depressive disorder. J Affect Disord 158:108–113
Nielsen MO, Rostrup E et al (2012a). Improvement of brain reward abnormalities by antipsychotic monotherapy in schizophrenia. Arch Gen Psychiatry: 1–10
Nielsen MO, Rostrup E et al (2012b) Alterations of the brain reward system in antipsychotic naive schizophrenia patients. Biol Psychiatry 71(10):898–905
Oades RD (1997) Stimulus dimension shifts in patients with schizophrenia, with and without paranoid hallucinatory symptoms, or obsessive compulsive disorder: strategies, blocking and monoamine status. Behav Brain Res 88(1):115–131
O’Doherty JP (2007) Lights, camembert, action! The role of human orbitofrontal cortex in encoding stimuli, rewards and choices. Ann NY Acad Sci 1121: 254–272
O’Doherty J, Critchley H et al (2003) Dissociating valence of outcome from behavioral control in human orbital and ventral prefrontal cortices. J Neurosci 23(21):7931–7939
Olino TM, McMakin DL et al (2013) Reduced reward anticipation in youth at high-risk for unipolar depression: a preliminary study. Dev Cogn Neurosci
Olino TM, McMakin DL et al (2011) I won, but I’m not getting my hopes up: depression moderates the relationship of outcomes and reward anticipation. Psychiatry Res 194(3):393–395
Olino TM, McMakin DL et al (2014) Reduced reward anticipation in youth at high-risk for unipolar depression: a preliminary study. Dev Cogn Neurosci 8:55–64
Olvet DM, Hajcak G (2008) The error-related negativity (ERN) and psychopathology: toward an endophenotype. Clin Psychol Rev 28(8):1343–1354
Otto AR, Skatova A et al (2015) Cognitive control predicts use of model-based reinforcement learning. J Cogn Neurosci 27(2):319–333
Padoa-Schioppa C (2007) Orbitofrontal cortex and the computation of economic value. Ann NY Acad Sci 441(7090):223–226
Padoa-Schioppa C, Assad JA (2006) Neurons in the orbitofrontal cortex encode economic value. Nature 441(7090):223–226
Padoa-Schioppa C, Cai X (2011) The orbitofrontal cortex and the computation of subjective value: consolidated concepts and new perspectives. Ann New York Acad Sci 1239:130–137
Pantelis C, Barber FZ et al (1999) Comparison of set-shifting ability in patients with chronic schizophrenia and frontal lobe damage. Schizophr Res 37(3):251–270
Paradiso S, Andreasen NC et al (2003) Emotions in unmedicated patients with schizophrenia during evaluation with positron emission tomography. Am J Psychiatry 160(10):1775–1783
Pechtel P, Dutra SJ et al (2013) Blunted reward responsiveness in remitted depression. J Psychiatric Res 47(12):1864–1869
Pecina S, Smith KS et al (2006) Hedonic hot spots in the brain. Neuroscientist 12(6):500–511
Penn DL, Combs D (2000) Modification of affect perception deficits in schizophrenia. Schizophr Res 46(2–3):217–229
Perlman G, Simmons AN et al (2012) Amygdala response and functional connectivity during emotion regulation: a study of 14 depressed adolescents. J Affect Disord 139(1):75–84
Pizzagalli DA, Iosifescu D et al (2008) Reduced hedonic capacity in major depressive disorder: evidence from a probabilistic reward task. J Psychiatric Res 43(1):76–87
Pizzagalli DA, Holmes AJ et al (2009) Reduced caudate and nucleus accumbens response to rewards in unmedicated individuals with major depressive disorder. Am J Psychiatry 166(6):702–710
Plailly J, d’Amato T et al (2006) Left temporo-limbic and orbital dysfunction in schizophrenia during odor familiarity and hedonicity judgments. Neuroimage 29(1):302–313
Premkumar P, Fannon D et al (2008) Emotional decision-making and its dissociable components in schizophrenia and schizoaffective disorder: a behavioural and MRI investigation. Neuropsychologia 46(7):2002–2012
Prevost C, Pessiglione M et al (2010) Separate valuation subsystems for delay and effort decision costs. J Neurosci 30(42):14080–14090
Rassovsky Y, Green MF et al (2005) Modulation of attention during visual masking in schizophrenia. Am J Psychiatry 162(8):1533–1535
Reinen J, Smith EE et al (2014) Patients with schizophrenia are impaired when learning in the context of pursuing rewards. Schizophr Res 152(1):309–310
Remijnse PL, Nielen MM et al (2009) Differential frontal-striatal and paralimbic activity during reversal learning in major depressive disorder and obsessive-compulsive disorder. Psychol Med 39(9):1503–1518
Richardson DK, Reynolds SM et al (2005) Endogenous opioids are necessary for benzodiazepine palatability enhancement: naltrexone blocks diazepam-induced increase of sucrose-’liking’. Pharmacol Biochem Behav 81(3):657–663
Robinson OJ, Cools R et al (2012) Ventral striatum response during reward and punishment reversal learning in unmedicated major depressive disorder. Am J Psychiatry 169(2):152–159
Rock PL, Roiser JP et al (2013) Cognitive impairment in depression: a systematic review and meta-analysis. Psychol Med 1–12
Rodriguez-Sanchez JM, Crespo-Facorro B et al (2005) Prefrontal cognitive functions in stabilized first-episode patients with schizophrenia spectrum disorders: a dissociation between dorsolateral and orbitofrontal functioning. Schizophr Res 77(2–3):279–288
Roesch MR, Olson CR (2005) Neuronal activity in primate orbitofrontal cortex reflects the value of time. J Neurophysiol 94(4):2457–2471
Roiser JP, Stephan KE et al (2009) Do patients with schizophrenia exhibit aberrant salience? Psychol Med 39(2):199–209
Rolls ET, Sienkiewicz ZJ et al (1989) Hunger modulates the responses to gustatory stimuli of single neurons in the caudolateral orbitofrontal cortex of the Macaque monkey. Eur J Neurosci 1(1):53–60
Rottenberg J, Wilhelm FH et al (2002) Respiratory sinus arrhythmia as a predictor of outcome in major depressive disorder. J Affect Disord 71(1–3):265–272
Rudebeck PH, Murray EA (2011) Dissociable effects of subtotal lesions within the macaque orbital prefrontal cortex on reward-guided behavior. J Neurosci: Official J Soc Neurosci 31(29):10569–10578
Rudebeck PH, Buckley MJ et al (2006a) A role for the macaque anterior cingulate gyrus in social valuation. Science 313(5791):1310–1312
Rudebeck PH, Walton ME et al (2006b) Separate neural pathways process different decision costs. Nat Neurosci 9(9):1161–1168
Rudebeck PH, Walton ME et al (2007) Distinct contributions of frontal areas to emotion and social behaviour in the rat. Eur J Neurosci 26(8):2315–2326
Rushworth MF, Behrens TE et al (2007) Contrasting roles for cingulate and orbitofrontal cortex in decisions and social behaviour. Trends Cogn Sci 11(4):168–176
Sakagami M, Watanabe M (2007) Integration of cognitive and motivational information in the primate lateral prefrontal cortex. Ann NY Acad Sci 1104:89–107
Salamone JD (2007) Functions of mesolimbic dopamine: changing concepts and shifting paradigms. Psychopharmacology (Berl) 191(3):389
Salamone JD, Correa M (2012) The mysterious motivational functions of mesolimbic dopamine. Neuron 76(3):470–485
Salamone JD, Correa M et al (2007) Effort-related functions of nucleus accumbens dopamine and associated forebrain circuits. Psychopharmacology (Berl) 191(3):461–482
Salamone JD, Correa M et al (2009) Dopamine, behavioral economics, and effort. Front Behav Neurosci 3:13
Salamone JD, Correa M et al (2012) The behavioral pharmacology of effort-related choice behavior: dopamine, adenosine and beyond. J Exp Anal Behav 97(1):125–146
Savine AC, Braver TS (2010) Motivated cognitive control: reward incentives modulate preparatory neural activity during task-switching. J Neurosci: Official J Soc Neurosci 30(31):10294–10305
Savitz JB, Drevets WC (2013) Neuroreceptor imaging in depression. Neurobiol Dis 52:49–65
Schlagenhauf F, Juckel G et al (2008) Reward system activation in schizophrenic patients switched from typical neuroleptics to olanzapine. Psychopharmacology (Berl) 196(4):673–684
Schlagenhauf F, Sterzer P et al (2009) Reward feedback alterations in unmedicated schizophrenia patients: relevance for delusions. Biol Psychiatry 65(12):1032–1039
Schlagenhauf F, Huys QJ et al (2014) Striatal dysfunction during reversal learning in unmedicated schizophrenia patients. Neuroimage 89:171–180
Schlenker R, Cohen R et al (1995) Affective modulation of the startle reflex in schizophrenic patients. Euro Arch Psychiatry Clin Neurosci 245:309–318
Schlosser DA, Fisher M et al (2014) Motivational deficits in individuals at-risk for psychosis and across the course of schizophrenia. Schizophr Res 158(1–3):52–57
Schmidt L, Lebreton M et al (2012) Neural mechanisms underlying motivation of mental versus physical effort. PLoS Biol 10(2):e1001266
Schneider F, Habel U et al (2007) Neural substrates of olfactory processing in schizophrenia patients and their healthy relatives. Psychiatry Res 155(2):103–112
Schoning S, Zwitserlood P et al (2009) Working-memory fMRI reveals cingulate hyperactivation in euthymic major depression. Hum Brain Mapp 30(9):2746–2756
Schultz W (1992) Activity of dopamine neurons in the behaving primate. Semin Neurosci 4:129–138
Schultz W (2004) Neural coding of basic reward terms of animal learning theory, game theory, microeconomics, and behavioral ecology. Curr Opin Neurobiol 14:139–147
Schultz W (2007) Multiple dopamine functions at different time courses. Annu Rev Neurosci 30:259–288
Schultz W, Apicella P et al (1993) Responses of monkey dopamine neurons to reward and conditioned stimuli during successive steps of learning a delayed response task. J Neurosci 13(3):900–913
Schultz W, Dayan P et al (1997) A neural substrate of prediction and reward. Science 275:1593–1599
Scinska A, Sienkiewicz-Jarosz H et al (2004) Depressive symptoms and taste reactivity in humans. Physiol Behav 82(5):899–904
Sevy S, Burdick KE et al (2007) Iowa gambling task in schizophrenia: a review and new data in patients with schizophrenia and co-occurring cannabis use disorders. Schizophr Res 92(1–3):74–84
Shankman SA, Klein DN et al (2007) Reward sensitivity in depression: a biobehavioral study. J Abnorm Psychol 116(1):95–104
Shankman SA, Nelson BD et al (2013) A psychophysiological investigation of threat and reward sensitivity in individuals with panic disorder and/or major depressive disorder. J Abnorm Psychol 122(2):322–338
Sharp C, Kim S et al (2014) Major depression in mothers predicts reduced ventral striatum activation in adolescent female offspring with and without depression. J Abnorm Psychol 123(2):298–309
Sheline YI, Barch DM et al (2009) The default mode network and self-referential processes in depression. Proc Natl Acad Sci USA
Shenhav A, Botvinick MM et al (2013) The expected value of control: an integrative theory of anterior cingulate cortex function. Neuron 79(2):217–240
Sherdell L, Waugh CE et al (2012) Anticipatory pleasure predicts motivation for reward in major depression. J Abnorm Psychol 121(1):51–60
Shurman B, Horan WP et al (2005) Schizophrenia patients demonstrate a distinctive pattern of decision-making impairment on the Iowa gambling task. Schizophr Res 72(2–3):215–224
Siegle GJ, Thompson W et al (2007) Increased amygdala and decreased dorsolateral prefrontal BOLD responses in unipolar depression: related and independent features. Biol Psychiatry 61(2):198–209
Simon JJ, Biller A et al (2009) Neural correlates of reward processing in schizophrenia—relationship to apathy and depression. Schizophr Res 118(1–3):154–161
Simpson EH, Kellendonk C et al (2011) Pharmacologic rescue of motivational deficit in an animal model of the negative symptoms of schizophrenia. Biol Psychiatry 69(10):928–935
Smith KS, Berridge KC (2007) Opioid limbic circuit for reward: interaction between hedonic hotspots of nucleus accumbens and ventral pallidum. J Neurosci 27(7):1594–1605
Smoski MJ, Lynch TR et al (2008) Decision-making and risk aversion among depressive adults. J Behav Ther Exp Psychiatry 39(4):567–576
Smoski MJ, Felder J et al (2009) fMRI of alterations in reward selection, anticipation, and feedback in major depressive disorder. J Affect Disord 118(1–3):69–78
Somlai Z, Moustafa AA et al (2011) General functioning predicts reward and punishment learning in schizophrenia. Schizophr Res 127(1–3):131–136
Stoy M, Schlagenhauf F et al (2012) Hyporeactivity of ventral striatum towards incentive stimuli in unmedicated depressed patients normalizes after treatment with escitalopram. J Psychopharmacol 26(5):677–688
Taylor SF, Phan KL et al (2005) Neural response to emotional salience in schizophrenia. Neuropsychopharmacology 30(5):984–995
Treadway MT, Buckholtz JW et al (2009) Worth the ‘EEfRT’? The effort expenditure for rewards task as an objective measure of motivation and anhedonia. PloS one 4(8):e6598
Treadway MT, Bossaller NA et al (2012a) Effort-based decision-making in major depressive disorder: a translational model of motivational anhedonia. J Abnorm Psychol 121(3):553–558
Treadway MT, Buckholtz JW et al (2012b) Dopaminergic mechanisms of individual differences in human effort-based decision-making. J Neurosci: Official J Soc Neurosci 32(18):6170–6176
Treadway MT, Peterman JS et al (2015) Impaired effort allocation in patients with schizophrenia. Schizophr Res 161(2–3):382–385
Tremeau F, Antonius D et al (2010) Anticipated, on-line and remembered positive experience in schizophrenia. Schizophr Res 122(1–3):199–205
Tremeau F, Antonius D et al (2014) Immediate affective motivation is not impaired in schizophrenia. Schizophr Res 159(1):157–163
Trifilieff P, Feng B et al (2013) Increasing dopamine D2 receptor expression in the adult nucleus accumbens enhances motivation. Mol Psychiatry 18(9):1025–1033
Tsujimoto S, Sawaguchi T (2005) Context-dependent representation of response-outcome in monkey prefrontal neurons. Cereb Cortex 15(7):888–898
Turnbull OH, Evans CE et al (2006) A novel set-shifting modification of the iowa gambling task: flexible emotion-based learning in schizophrenia. Neuropsychology 20(3):290–298
Turner DC, Clark L et al (2004) Modafinil improves cognition and attentional set shifting in patients with chronic schizophrenia. Neuropsychopharmacology 29(7):1363–1373
Tyson PJ, Laws KR et al (2004) Stability of set-shifting and planning abilities in patients with schizophrenia. Psychiatry Res 129(3):229–239
Ubl B, Kuehner C et al (2015) Altered neural reward and loss processing and prediction error signalling in depression. Soc Cogn Affect Neurosci
Vaidyanathan U, Nelson LD et al (2012) Clarifying domains of internalizing psychopathology using neurophysiology. Psychol Med 42(3):447–459
Velthorst E, Nieman DH et al (2009) Baseline differences in clinical symptomatology between ultra high risk subjects with and without a transition to psychosis. Schizophr Res 109(1–3):60–65
Ventura J, Hellemann GS et al (2009) Symptoms as mediators of the relationship between neurocognition and functional outcome in schizophrenia: a meta-analysis. Schizophr Res 113(2–3):189–199
Vollema MG, Geurtsen GJ et al (1995) Durable improvements in Wisconsin card sorting test performance in schizophrenic patients. Schizophr Res 16(3):209–215
Volz M, Hamm AO et al (2003) Temporal course of emotional startle modulation in schizophrenia patients. Int J Psychophysiol 49(2):123–137
Vrieze E, Pizzagalli DA et al (2013) Reduced reward learning predicts outcome in major depressive disorder. Biol Psychiatry 73(7):639–645
Wallis JD (2007) Orbitofrontal cortex and its contribution to decision-making. Ann Rev Neurosci 30:31–56
Walter H, Vasic N et al (2007) Working memory dysfunction in schizophrenia compared to healthy controls and patients with depression: evidence from event-related fMRI. Neuroimage 35(4):1551–1561
Walter H, Kammerer H et al (2009) Altered reward functions in patients on atypical antipsychotic medication in line with the revised dopamine hypothesis of schizophrenia. Psychopharmacology (Berl) 206(1):121–132
Walter H, Heckers S et al (2010) Further evidence for aberrant prefrontal salience coding in schizophrenia. Front Behav Neurosci 3:62
Walton ME, Bannerman DM et al (2003) Functional specialization within medial frontal cortex of the anterior cingulate for evaluating effort-related decisions. J Neurosci 23(16):6475–6479
Walton ME, Rudebeck PH et al (2007) Calculating the cost of acting in frontal cortex. Ann NY Acad Sci 1104:340–356
Waltz JA, Gold JM (2007) Probabilistic reversal learning impairments in schizophrenia: further evidence of orbitofrontal dysfunction. Schizophr Res 93(1–3):296–303
Waltz JA, Frank MJ et al (2007) Selective reinforcement learning deficits in schizophrenia support predictions from computational models of striatal-cortical dysfunction. Biol Psychiatry 62(7):756–764
Waltz JA, Schweitzer JB et al (2009) Patients with schizophrenia have a reduced neural response to both unpredictable and predictable primary reinforcers. Neuropsychopharmacology 34(6):1567–1577
Waltz JA, Schweitzer JB et al (2010) Abnormal responses to monetary outcomes in cortex, but not in the basal ganglia, in schizophrenia. Neuropsychopharmacology 35(12):2427–2439
Waltz JA, Kasanova Z et al (2013) The roles of reward, default, and executive control networks in set-shifting impairments in schizophrenia. PLoS One 8(2):e57257
Ward RD, Simpson EH et al (2012) Dissociation of hedonic reaction to reward and incentive motivation in an animal model of the negative symptoms of schizophrenia. Neuropsychopharmacology 37(7):1699–1707
Watanabe M (1996) Reward expectancy in primate prefrontal neurons. Nature 382:629–632
Weickert TW, Terrazas A et al (2002) Habit and skill learning in schizophrenia: evidence of normal striatal processing with abnormal cortical input. Learn Mem 9(6):430–442
Weickert TW, Goldberg TE et al (2009) Neural correlates of probabilistic category learning in patients with schizophrenia. J Neurosci 29(4):1244–1254
Weiler JA, Bellebaum C et al (2009) Impairment of probabilistic reward-based learning in schizophrenia. Neuropsychology 23(5):571–580
Westheide J, Wagner M et al (2007) Neuropsychological performance in partly remitted unipolar depressive patients: focus on executive functioning. Eur Arch Psychiatry Clin Neurosci 257(7):389–395
Whitmer AJ, Frank MJ et al (2012) Sensitivity to reward and punishment in major depressive disorder: effects of rumination and of single versus multiple experiences. Cogn Emot 26(8):1475–1485
Wilder KE, Weinberger DR et al (1998) Operant conditioning and the orbitofrontal cortex in schizophrenic patients: unexpected evidence for intact functioning. Schizophr Res 30(2):169–174
Wolf DH, Satterthwaite TD et al (2014) Amotivation in schizophrenia: integrated assessment with behavioral, clinical, and imaging measures. Schizophr Bull 40(6):1328–1337
Wynn JK, Horan WP et al (2010) Impaired anticipatory event-related potentials in schizophrenia. Int J Psychophysiol 77(2):141–149
Yang XH, Huang J et al (2014) Motivational deficits in effort-based decision making in individuals with subsyndromal depression, first-episode and remitted depression patients. Psychiatry Res 220(3):874–882
Yilmaz A, Simsek F et al (2012) Reduced reward-related probability learning in schizophrenia patients. Neuropsychiatr Dis Treat 8:27–34
Yip SW, Sacco KA et al (2009) Risk/reward decision-making in schizophrenia: a preliminary examination of the influence of tobacco smoking and relationship to Wisconsin card sorting task performance. Schizophr Res 110(1–3):156–164
Zalla T, Plassiart C et al (2001) Action planning in a virtual context after prefrontal cortex damage. Neuropsychologia 39(8):759–770
Zhang WN, Chang SH et al (2013) The neural correlates of reward-related processing in major depressive disorder: a meta-analysis of functional magnetic resonance imaging studies. J Affect Disord 151(2):531–539
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Barch, D.M., Pagliaccio, D., Luking, K. (2015). Mechanisms Underlying Motivational Deficits in Psychopathology: Similarities and Differences in Depression and Schizophrenia. In: Simpson, E., Balsam, P. (eds) Behavioral Neuroscience of Motivation. Current Topics in Behavioral Neurosciences, vol 27. Springer, Cham. https://doi.org/10.1007/7854_2015_376
Download citation
DOI: https://doi.org/10.1007/7854_2015_376
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-26933-7
Online ISBN: 978-3-319-26935-1
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)