Predictions and the brain: how musical sounds become rewarding. Salimpoor VN, Zald DH, Zatorre RJ, Dagher A, McIntosh AR (2015) Trends Cogn Sci 19: 86-91 The rodent orbitofrontal cortex gets time and direction. Zald DH (2006) Neuron 51: 395-7 Search efficiency but not response interference affects visual selection in frontal eye field. Sato T, Murthy A, Thompson KG, Schall JD (2001) Neuron 30: 583-91 Conceptual, methodological, and empirical ambiguities in the linkage between anger and approach: comment on Carver and Harmon-Jones (2009). Tomarken AJ, Zald DH (2009) Psychol Bull 135: 209-14; discussion 215-7 Mesolimbic dopamine reward system hypersensitivity in individuals with psychopathic traits. Buckholtz JW, Treadway MT, Cowan RL, Woodward ND, Benning SD, Li R, Ansari MS, Baldwin RM, Schwartzman AN, Shelby ES, Smith CE, Cole D, Kessler RM, Zald DH (2010) Nat Neurosci 13: 419-21 GLP-1 analog attenuates cocaine reward. Graham DL, Erreger K, Galli A, Stanwood GD (2013) Mol Psychiatry 18: 961-2 Reward Processing, Neuroeconomics, and Psychopathology. Zald DH, Treadway MT (2017) Annu Rev Clin Psychol 13: 471-495 Reconsidering anhedonia in depression: lessons from translational neuroscience. Treadway MT, Zald DH (2011) Neurosci Biobehav Rev 35: 537-55 Abnormal reward system activation in mania. Abler B, Greenhouse I, Ongur D, Walter H, Heckers S (2008) Neuropsychopharmacology 33: 2217-27 The mGluR2 positive allosteric modulator BINA decreases cocaine self-administration and cue-induced cocaine-seeking and counteracts cocaine-induced enhancement of brain reward function in rats. Jin X, Semenova S, Yang L, Ardecky R, Sheffler DJ, Dahl R, Conn PJ, Cosford ND, Markou A (2010) Neuropsychopharmacology 35: 2021-36 Drug-induced activation of dopamine D(1) receptor signaling and inhibition of class I/II histone deacetylase induce chromatin remodeling in reward circuitry and modulate cocaine-related behaviors. Schroeder FA, Penta KL, Matevossian A, Jones SR, Konradi C, Tapper AR, Akbarian S (2008) Neuropsychopharmacology 33: 2981-92 Genetic loss of GluN2B in D1-expressing cell types enhances long-term cocaine reward and potentiation of thalamo-accumbens synapses. Joffe ME, Turner BD, Delpire E, Grueter BA (2018) Neuropsychopharmacology 43: 2383-2389 Insulin regulation of monoamine signaling: pathway to obesity. Niswender KD, Daws LC, Avison MJ, Galli A (2011) Neuropsychopharmacology 36: 359-60 Yohimbine depresses excitatory transmission in BNST and impairs extinction of cocaine place preference through orexin-dependent, norepinephrine-independent processes. Conrad KL, Davis AR, Silberman Y, Sheffler DJ, Shields AD, Saleh SA, Sen N, Matthies HJ, Javitch JA, Lindsley CW, Winder DG (2012) Neuropsychopharmacology 37: 2253-66 Extracellular-signal regulated kinase 1-dependent metabotropic glutamate receptor 5-induced long-term depression in the bed nucleus of the stria terminalis is disrupted by cocaine administration. Grueter BA, Gosnell HB, Olsen CM, Schramm-Sapyta NL, Nekrasova T, Landreth GE, Winder DG (2006) J Neurosci 26: 3210-9 Dopaminergic mechanisms of individual differences in human effort-based decision-making. Treadway MT, Buckholtz JW, Cowan RL, Woodward ND, Li R, Ansari MS, Baldwin RM, Schwartzman AN, Kessler RM, Zald DH (2012) J Neurosci 32: 6170-6 Amping up effort: effects of d-amphetamine on human effort-based decision-making. Wardle MC, Treadway MT, Mayo LM, Zald DH, de Wit H (2011) J Neurosci 31: 16597-602 Altered sensitivity to rewarding and aversive drugs in mice with inducible disruption of cAMP response element-binding protein function within the nucleus accumbens. Dinieri JA, Nemeth CL, Parsegian A, Carle T, Gurevich VV, Gurevich E, Neve RL, Nestler EJ, Carlezon WA (2009) J Neurosci 29: 1855-9 Brain reward regulated by AMPA receptor subunits in nucleus accumbens shell. Todtenkopf MS, Parsegian A, Naydenov A, Neve RL, Konradi C, Carlezon WA (2006) J Neurosci 26: 11665-9 Dopamine transmission in the human striatum during monetary reward tasks. Zald DH, Boileau I, El-Dearedy W, Gunn R, McGlone F, Dichter GS, Dagher A (2004) J Neurosci 24: 4105-12 Ovarian cycle effects on immediate reward selection bias in humans: a role for estradiol. Smith CT, Sierra Y, Oppler SH, Boettiger CA (2014) J Neurosci 34: 5468-76 Ventral striatal network connectivity reflects reward learning and behavior in patients with Parkinson's disease. Petersen K, Van Wouwe N, Stark A, Lin YC, Kang H, Trujillo-Diaz P, Kessler R, Zald D, Donahue MJ, Claassen DO (2018) Hum Brain Mapp 39: 509-521 Neural correlates of substance abuse: reduced functional connectivity between areas underlying reward and cognitive control. Motzkin JC, Baskin-Sommers A, Newman JP, Kiehl KA, Koenigs M (2014) Hum Brain Mapp 35: 4282-92 Meta-analytic connectivity modeling reveals differential functional connectivity of the medial and lateral orbitofrontal cortex. Zald DH, McHugo M, Ray KL, Glahn DC, Eickhoff SB, Laird AR (2014) Cereb Cortex 24: 232-48 Striatal dopamine transmission in healthy humans during a passive monetary reward task. Hakyemez HS, Dagher A, Smith SD, Zald DH (2008) Neuroimage 39: 2058-65 Subjective value representations during effort, probability and time discounting across adulthood. Seaman KL, Brooks N, Karrer TM, Castrellon JJ, Perkins SF, Dang LC, Hsu M, Zald DH, Samanez-Larkin GR (2018) Soc Cogn Affect Neurosci 13: 449-459 Resources, repositories and rewards. Siegel V (2009) Dis Model Mech 2: 423-5 Impaired effort allocation in patients with schizophrenia. Treadway MT, Peterman JS, Zald DH, Park S (2015) Schizophr Res 161: 382-5 Noradrenergic control of the bed nucleus of the stria terminalis in stress and reward. Flavin SA, Winder DG (2013) Neuropharmacology 70: 324-30 Individual differences in dopamine D receptor availability correlate with reward valuation. Dang LC, Samanez-Larkin GR, Castrellon JJ, Perkins SF, Cowan RL, Zald DH (2018) Cogn Affect Behav Neurosci 18: 739-747 Modulation of glutamatergic synaptic transmission in the bed nucleus of the stria terminalis. McElligott ZA, Winder DG (2009) Prog Neuropsychopharmacol Biol Psychiatry 33: 1329-35 Modulation of impulsivity and reward sensitivity in intertemporal choice by striatal and midbrain dopamine synthesis in healthy adults. Smith CT, Wallace DL, Dang LC, Aarts E, Jagust WJ, D'Esposito M, Boettiger CA (2016) J Neurophysiol 115: 1146-56 Personality correlates of individual differences in the recruitment of cognitive mechanisms when rewards are at stake. Heritage AJ, Long LJ, Woodman GF, Zald DH (2018) Psychophysiology 55: Relation of obesity to consummatory and anticipatory food reward. Stice E, Spoor S, Ng J, Zald DH (2009) Physiol Behav 97: 551-60 Oleoylethanolamide: A fat ally in the fight against obesity. Brown JD, Karimian Azari E, Ayala JE (2017) Physiol Behav 176: 50-58 Caudate responses to reward anticipation associated with delay discounting behavior in healthy youth. Benningfield MM, Blackford JU, Ellsworth ME, Samanez-Larkin GR, Martin PR, Cowan RL, Zald DH (2014) Dev Cogn Neurosci 7: 43-52 Moving beyond energy homeostasis: new roles for glucagon-like peptide-1 in food and drug reward. Reddy IA, Stanwood GD, Galli A (2014) Neurochem Int 73: 49-55 CM156, a sigma receptor ligand, reverses cocaine-induced place conditioning and transcriptional responses in the brain. Xu YT, Robson MJ, Szeszel-Fedorowicz W, Patel D, Rooney R, McCurdy CR, Matsumoto RR (2012) Pharmacol Biochem Behav 101: 174-80 Relationship between impulsivity, prefrontal anticipatory activation, and striatal dopamine release during rewarded task performance. Weiland BJ, Heitzeg MM, Zald D, Cummiford C, Love T, Zucker RA, Zubieta JK (2014) Psychiatry Res 223: 244-52
Hints: (1) double-click or double-tap to navigate to a node. (2) Grab a node and move it to arrange the graph.