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- Imaging genetics in ADHD: A focus on cognitive control
- Magnetic Resonance Simulation Is Effective in Reducing Anxiety Related To Magnetic Resonance Scanning in Children
- Dopamine transporter genotype conveys familial risk of attention-deficit/hyperactivity disorder through striatal activation
- Neural and behavioral correlates of expectancy violations in attention-deficit hyperactivity disorder
- Activation in Ventral Prefrontal Cortex is Sensitive to Genetic Vulnerability for Attention-Decit Hyperactivity Disorder
- A shift from diffuse to focal cortical activity with development
- What have we learned about cognitive development from neuroimaging?
- Differential effects of DRD4 and DAT1 genotype on fronto-striatal gray matter volumes in a sample of subjects with attention deficit hyperactivity disorder, their unaffected siblings, and controls
- Parametric manipulation of conflict and response competition using rapid mixed-trial event-related fMRI
- Differential Patterns of Striatal Activation in Young Children with and without ADHD
- The Effect of Preceding Context on Inhibition: An Event-Related fMRI Study
- Anatomical MRI of the Developing Human Brain: What Have We Learned?
- Marieke
- Fronto-striatal circuitry and inhibitory control in autism: Findings from diffusion tensor imaging tractography
- The neurobiology of repetitive behavior: Of mice...
- The neurobiology of repetitive behavior: ...and men
- Changes in the developmental trajectories of striatum in autism
- Caudate nucleus is enlarged in high-functioning medication-naive subjects with autism
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- Inhibitory Performance, ResponseSpeed, Intraindividual Variability, and Response Accuracy in ADHD
- Decreased Frontostriatal Microstructural Organization in Attention Deficit/Hyperactivity Disorder
- Prenatal exposure to cigarette smoke or alcohol and cerebellum volume in attention-deficit/hyperactivity disorder and typical development
- Differential Brain Development with Low and High IQ in Attention-Deficit/Hyperactivity Disorder
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Niche Lab - Neuroimaging In Childhood
Differential effects of DRD4 and DAT1 genotype on fronto-striatal gray matter volumes in a sample of subjects with attention deficit hyperactivity disorder, their unaffected siblings, and controls
Differential effects of DRD4 and DAT1 genotype on fronto-striatal gray matter volumes in a sample of subjects with attention deficit hyperactivity disorder, their unaffected siblings, and controls
Sarah Durston, John A. Fossella, B.J. Casey, Hilleke E. Hulshoff Pol, Adriana Galvan, Hugo G. Schnack, Mark-Peter Steenhuis, Ruud B. Minderaa, Jan K. Buitelaar, René S. Kahn and Herman van Engeland - Molecular Psychiatry (2005)10, 678-685.
Genetic influences on behavior are complex and, as such, the effect of any single gene is likely to be modest. Neuroimaging measures may serve as a biological intermediate phenotype to investigate the effect of genes on human behavior. In particular, it is possible to constrain investigations by prior knowledge of gene characteristics and by including samples of subjects where the distribution of phenotypic variance is both wide and under heritable influences. Here, we use this approach to show a dissociation between the effects of two dopamine genes that are differentially expressed in the brain. We show that the DAT1 gene, a gene expressed predominantly in the basal ganglia, preferentially influences caudate volume, whereas the DRD4 gene, a gene expressed predominantly in the prefrontal cortex, preferentially influences prefrontal gray matter volume in a sample of subjects including subjects with ADHD, their unaffected siblings, and healthy controls. This demonstrates that, by constraining our investigations by prior knowledge of gene expression, including samples in which the distribution of phenotypic variance is wide and under heritable influences, and by using intermediate phenotypes, such as neuroimaging, we may begin to map out the pathways by which genes influence behavior.
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Auteur
Naam Sarah Durston
Functie Niche head of NICHE Lab
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