Differences in impulsivity on a delay-discounting task predict self-administration of a low unit dose of methylphenidate in rats.
about
Individual differences and social influences on the neurobehavioral pharmacology of abused drugs.Intake-dependent effects of cocaine self-administration on impulsive choice in a delay discounting task.Role of medial prefrontal and orbitofrontal monoamine transporters and receptors in performance in an adjusting delay discounting procedure.Human laboratory paradigms in alcohol research.Novelty seeking, incentive salience and acquisition of cocaine self-administration in the ratConvergent pharmacological mechanisms in impulsivity and addiction: insights from rodent models.Personality and the acute subjective effects of d-amphetamine in humans.The role of impulsivity in the aetiology of drug dependence: reward sensitivity versus automaticity.Impulsive choice, alcohol consumption, and pre-exposure to delayed rewards: II. Potential mechanisms.Dissecting impulsivity and its relationships to drug addictions.A multivariate assessment of individual differences in sensation seeking and impulsivity as predictors of amphetamine self-administration and prefrontal dopamine function in rats.Delayed reward discounting and addictive behavior: a meta-analysisHigh impulsivity in rats predicts amphetamine conditioned place preferenceThe behavioral economics of substance use disorders: reinforcement pathologies and their repair.Delay discounting in Lewis and Fischer 344 rats: steady-state and rapid-determination adjusting-amount proceduresStrain differences in self-administration of methylphenidate and sucrose pellets in a rat model of attention-deficit hyperactivity disorder.Methylphenidate and cocaine self-administration produce distinct dopamine terminal alterations.Impulsivity and drugs of abuse: a juice-reinforced operant procedure for determining within-session delay discounting functions in rhesus monkeysEffect of daily morphine administration and its discontinuation on delay discounting of food in rhesus monkeysHighly impulsive rats: modelling an endophenotype to determine the neurobiological, genetic and environmental mechanisms of addictionSystems genetics of intravenous cocaine self-administration in the BXD recombinant inbred mouse panel.Early and prolonged exposure to reward delay: effects on impulsive choice and alcohol self-administration in male ratsA multistep general theory of transition to addiction.Mechanisms of Individual Differences in Impulsive and Risky Choice in Rats.Diet-induced obesity: dopamine transporter function, impulsivity and motivation.Integrating behavioral economics and behavioral genetics: delayed reward discounting as an endophenotype for addictive disorders.Addictions and Personality Traits: Impulsivity and Related ConstructsMethylphenidate as a reinforcer for rats: contingent delivery and intake escalation.Cue effects on methylphenidate self-administration in rats.Oral methylphenidate establishes a conditioned place preference in ratsDissecting drug effects in preclinical models of impulsive choice: emphasis on glutamatergic compounds.
P2860
Q30445210-7B8B3E16-5C3B-45EE-91A6-D5A34E187F36Q30584568-43B33D52-077F-4E76-9799-8528F140689AQ34117343-93743901-9B5D-4B3D-820B-C49DD485EEDDQ34205530-385D0D31-A456-4228-A076-E337A246983DQ34288128-86C68ECC-6734-4EF0-88A7-5774F806C261Q34407185-B6BBBAD7-A691-4E42-BDE0-E660B4D199B0Q34560588-5F6F27F7-1819-4DD4-96F1-54E2542ED5B4Q34959736-2661A9E4-27FE-4C6F-B318-2B179BFAA650Q35039624-08FC2AE7-1544-454A-A22C-55F141D180F9Q35180445-96FF298B-5D23-4642-A881-2803895E7137Q35188718-3E9E5BAB-6B18-4EBB-986D-52A37D552346Q35447385-FF970EB5-B02B-42BD-9113-51D22870BF80Q35624306-CA79493E-75FE-4693-BFDB-5274E9123951Q35848851-3F958FE0-B405-4676-9363-B999F0D83A98Q36025804-2E533E9B-4F8F-471E-A743-C30122BA70B0Q36053233-9B5F7D85-AA3C-4D63-8BEE-54615D55B1E5Q36078296-FEFE05DD-5044-433A-8ABD-485292D74D6BQ36427966-07446032-A647-42E1-9799-0F23A7701895Q36655864-EEFEA6E1-265E-412D-8DCD-78EC8CFA9A7BQ36683023-79F097D1-3869-4136-8B38-683BA6E52A50Q36715723-7125EBC4-26C4-45B6-8F3B-557DDC9B1B8AQ36939554-152C5F15-374F-46F9-9302-C10147821B5BQ37157966-7FEE20AC-699A-4A64-9552-231C00556984Q37300990-8294F437-2C00-46C8-B293-609FE1FD62F7Q37376829-FD38C9C9-40DB-4D9C-AA44-55489DEB958CQ37436803-AA95130F-B3FE-4292-821F-3C03F85ECCDAQ37718489-726E1EEF-C8F1-4E63-A8A7-AD930F6C1EB7Q38274000-03996AE2-5AB4-4B8B-9B88-ABB76E053E37Q38791811-C8ABCCA2-8D2B-4F88-BC2F-83199B827B85Q41483014-56F5438F-F879-4847-A731-C1D07BB8EF54Q47203374-3BBEF04A-58AF-4D72-98B9-D045D818DBE3
P2860
Differences in impulsivity on a delay-discounting task predict self-administration of a low unit dose of methylphenidate in rats.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Differences in impulsivity on ...... se of methylphenidate in rats.
@en
Differences in impulsivity on ...... se of methylphenidate in rats.
@nl
type
label
Differences in impulsivity on ...... se of methylphenidate in rats.
@en
Differences in impulsivity on ...... se of methylphenidate in rats.
@nl
prefLabel
Differences in impulsivity on ...... se of methylphenidate in rats.
@en
Differences in impulsivity on ...... se of methylphenidate in rats.
@nl
P2860
P1476
Differences in impulsivity on ...... se of methylphenidate in rats.
@en
P2093
Julie A Marusich
Michael T Bardo
P2860
P304
P356
10.1097/FBP.0B013E328330AD6D
P577
2009-09-01T00:00:00Z