Behavioral models of impulsivity in relation to ADHD: translation between clinical and preclinical studies CA Winstanley, DM Eagle, TW Robbins Clinical psychology review 26 (4), 379-395, 2006 | 1050 | 2006 |
Contrasting roles of basolateral amygdala and orbitofrontal cortex in impulsive choice CA Winstanley, DEH Theobald, RN Cardinal, TW Robbins Journal of Neuroscience 24 (20), 4718-4722, 2004 | 744 | 2004 |
Serotonergic and dopaminergic modulation of gambling behavior as assessed using a novel rat gambling task FD Zeeb, TW Robbins, CA Winstanley Neuropsychopharmacology 34 (10), 2329-2343, 2009 | 433 | 2009 |
Fractionating impulsivity: contrasting effects of central 5-HT depletion on different measures of impulsive behavior CA Winstanley, JW Dalley, DEH Theobald, TW Robbins Neuropsychopharmacology 29 (7), 1331-1343, 2004 | 425 | 2004 |
Interactions between serotonin and dopamine in the control of impulsive choice in rats: therapeutic implications for impulse control disorders CA Winstanley, DEH Theobald, JW Dalley, TW Robbins Neuropsychopharmacology 30 (4), 669-682, 2005 | 404 | 2005 |
Choice impulsivity: Definitions, measurement issues, and clinical implications. KR Hamilton, MR Mitchell, VC Wing, IM Balodis, WK Bickel, M Fillmore, ... Personality Disorders: Theory, Research, and Treatment 6 (2), 182, 2015 | 393 | 2015 |
5-HT2A and 5-HT2C receptor antagonists have opposing effects on a measure of impulsivity: interactions with global 5-HT depletion CA Winstanley, DEH Theobald, JW Dalley, JC Glennon, TW Robbins Psychopharmacology 176, 376-385, 2004 | 393 | 2004 |
Limbic corticostriatal systems and delayed reinforcement RN Cardinal, CA Winstanley, TW Robbins, BJ Everitt Annals of the New York Academy of Sciences 1021 (1), 33-50, 2004 | 372 | 2004 |
Cortico-limbic-striatal circuits subserving different forms of cost-benefit decision making SB Floresco, JRS Onge, S Ghods-Sharifi, CA Winstanley Cognitive, Affective, & Behavioral Neuroscience 8 (4), 375-389, 2008 | 361 | 2008 |
Double dissociation between serotonergic and dopaminergic modulation of medial prefrontal and orbitofrontal cortex during a test of impulsive choice CA Winstanley, DEH Theobald, JW Dalley, RN Cardinal, TW Robbins Cerebral cortex 16 (1), 106-114, 2006 | 346 | 2006 |
Prefrontal cortical circuit for depression-and anxiety-related behaviors mediated by cholecystokinin: role of ΔFosB V Vialou, RC Bagot, ME Cahill, D Ferguson, AJ Robison, DM Dietz, ... Journal of Neuroscience 34 (11), 3878-3887, 2014 | 341 | 2014 |
Global 5-HT depletion attenuates the ability of amphetamine to decrease impulsive choice on a delay-discounting task in rats CA Winstanley, JW Dalley, DEH Theobald, TW Robbins Psychopharmacology 170, 320-331, 2003 | 328 | 2003 |
Insight into the relationship between impulsivity and substance abuse from studies using animal models CA Winstanley, P Olausson, JR Taylor, JD Jentsch Alcoholism: Clinical and Experimental Research 34 (8), 1306-1318, 2010 | 301 | 2010 |
The utility of rat models of impulsivity in developing pharmacotherapies for impulse control disorders CA Winstanley British journal of pharmacology 164 (4), 1301-1321, 2011 | 273 | 2011 |
Intra-prefrontal 8-OH-DPAT and M100907 improve visuospatial attention and decrease impulsivity on the five-choice serial reaction time task in rats CA Winstanley, Y Chudasama, JW Dalley, DEH Theobald, JC Glennon, ... Psychopharmacology 167, 304-314, 2003 | 271 | 2003 |
IRS2-Akt pathway in midbrain dopamine neurons regulates behavioral and cellular responses to opiates SJ Russo, CA Bolanos, DE Theobald, NA DeCarolis, W Renthal, A Kumar, ... Nature neuroscience 10 (1), 93-99, 2007 | 249 | 2007 |
Contributions of the orbitofrontal cortex to impulsive choice: interactions with basal levels of impulsivity, dopamine signalling, and reward-related cues FD Zeeb, SB Floresco, CA Winstanley Psychopharmacology 211, 87-98, 2010 | 224 | 2010 |
Contributions of serotonin in addiction vulnerability LG Kirby, FD Zeeb, CA Winstanley Neuropharmacology 61 (3), 421-432, 2011 | 199 | 2011 |
Environmental enrichment produces a behavioral phenotype mediated by low cyclic adenosine monophosphate response element binding (CREB) activity in the nucleus accumbens TA Green, IN Alibhai, CN Roybal, CA Winstanley, DEH Theobald, ... Biological psychiatry 67 (1), 28-35, 2010 | 191 | 2010 |
Lesions of the basolateral amygdala and orbitofrontal cortex differentially affect acquisition and performance of a rodent gambling task FD Zeeb, CA Winstanley Journal of Neuroscience 31 (6), 2197-2204, 2011 | 181 | 2011 |