Published in Behav Brain Res on March 02, 2004
Poor response inhibition: at the nexus between substance abuse and attention deficit/hyperactivity disorder. Neurosci Biobehav Rev (2008) 1.30
Preweaning manganese exposure causes hyperactivity, disinhibition, and spatial learning and memory deficits associated with altered dopamine receptor and transporter levels. Synapse (2010) 1.14
Methylphenidate treatment in adolescent rats with an attention deficit/hyperactivity disorder phenotype: cocaine addiction vulnerability and dopamine transporter function. Neuropsychopharmacology (2010) 1.02
Relationship between impulsivity, hyperactivity and working memory: a differential analysis in the rat. Behav Brain Funct (2006) 0.87
The spontaneously hypertensive and Wistar Kyoto rat models of ADHD exhibit sub-regional differences in dopamine release and uptake in the striatum and nucleus accumbens. Neuropharmacology (2012) 0.87
Shortened conditioned eyeblink response latency in male but not female Wistar-Kyoto hyperactive rats. Behav Neurosci (2009) 0.80
Extinction learning deficit in a rodent model of attention-deficit hyperactivity disorder. Behav Brain Funct (2012) 0.79
Sex differences in learning and inhibition in spontaneously hypertensive rats. Behav Brain Res (2007) 0.79
Stimulus processing and associative learning in Wistar and WKHA rats. Behav Neurosci (2005) 0.79
Effects of sex hormones on associative learning in spontaneously hypertensive rats. Physiol Behav (2007) 0.77
Response variability in Attention-Deficit/Hyperactivity Disorder: a neuronal and glial energetics hypothesis. Behav Brain Funct (2006) 1.57
Animal models of attention-deficit hyperactivity disorder. Behav Brain Funct (2005) 1.47
Infrequent, but not frequent, reinforcers produce more variable responding and deficient sustained attention in young children with attention-deficit/hyperactivity disorder (ADHD). J Child Psychol Psychiatry (2006) 1.24
Attention-deficit/hyperactivity disorder (ADHD) behaviour explained by dysfunctioning reinforcement and extinction processes. Behav Brain Res (2002) 1.20
Origins of altered reinforcement effects in ADHD. Behav Brain Funct (2009) 1.17
A comparison of molecular alterations in environmental and genetic rat models of ADHD: a pilot study. Am J Med Genet B Neuropsychiatr Genet (2008) 1.14
The control of responsiveness in ADHD by catecholamines: evidence for dopaminergic, noradrenergic and interactive roles. Dev Sci (2005) 1.04
Moment-to-moment dynamics of ADHD behaviour in South African children. Behav Brain Funct (2006) 0.99
Sequence analysis of Drd2, Drd4, and Dat1 in SHR and WKY rat strains. Behav Brain Funct (2005) 0.94
Moment-to-moment dynamics of ADHD behaviour. Behav Brain Funct (2005) 0.93
Effects of delayed reinforcers on the behavior of an animal model of attention-deficit/hyperactivity disorder (ADHD). Behav Brain Res (2005) 0.93
Behavioral variability, elimination of responses, and delay-of-reinforcement gradients in SHR and WKY rats. Behav Brain Funct (2007) 0.89
Fine motor skills in South African children with symptoms of ADHD: influence of subtype, gender, age, and hand dominance. Behav Brain Funct (2006) 0.88
Marine Ο-3 polyunsaturated fatty acids induce sex-specific changes in reinforcer-controlled behaviour and neurotransmitter metabolism in a spontaneously hypertensive rat model of ADHD. Behav Brain Funct (2012) 0.86
SLC9A9 mutations, gene expression, and protein-protein interactions in rat models of attention-deficit/hyperactivity disorder. Am J Med Genet B Neuropsychiatr Genet (2011) 0.85
Intraindividual variability (IIV) in an animal model of ADHD - the Spontaneously Hypertensive Rat. Behav Brain Funct (2010) 0.85
Postnatal exposure to PCB 153 and PCB 180, but not to PCB 52, produces changes in activity level and stimulus control in outbred male Wistar Kyoto rats. Behav Brain Funct (2011) 0.80
Behavioral effects of intra-cranial self-stimulation in an animal model of attention-deficit/hyperactivity disorder (ADHD). Behav Brain Res (2005) 0.80
Dynamic behavioural changes in the Spontaneously Hyperactive Rat: 2. Control by novelty. Behav Brain Res (2008) 0.80
The four causes of ADHD: a framework. Curr Top Behav Neurosci (2012) 0.79
Slower extinction of responses maintained by intra-cranial self-stimulation (ICSS) in an animal model of attention-deficit/hyperactivity disorder (ADHD). Behav Brain Res (2005) 0.79
Differential expression of SLC9A9 and interacting molecules in the hippocampus of rat models for attention deficit/hyperactivity disorder. Dev Neurosci (2012) 0.79
Dynamic behavioural changes in the Spontaneously Hyperactive Rat: 1. Control by place, timing, and reinforcement rate. Behav Brain Res (2008) 0.77
Dynamic behavioural changes in the Spontaneously Hyperactive Rat: 3. Control by reinforcer rate changes and predictability. Behav Brain Res (2008) 0.76
Behavioral changes following PCB 153 exposure in the spontaneously hypertensive rat - an animal model of Attention-Deficit/Hyperactivity Disorder. Behav Brain Funct (2014) 0.76
The neuroscience peer review consortium. Behav Brain Funct (2009) 0.75