Kent E. Hutchison scite author profile

As the size of functional and structural MRI datasets expands, it becomes increasingly important to establish a baseline from which diagnostic relevance may be determined, a processing strategy that efficiently prepares data for analysis, and a statistical approach that identifies important effects in a manner that is both robust and reproducible. In this paper, we introduce a multivariate analytic approach that optimizes sensitivity and reduces unnecessary testing. We demonstrate the utility of this mega-analytic approach by identifying the effects of age and gender on the resting-state networks (RSNs) of 603 healthy adolescents and adults (mean age: 23.4 years, range: 12–71 years). Data were collected on the same scanner, preprocessed using an automated analysis pipeline based in SPM, and studied using group independent component analysis. RSNs were identified and evaluated in terms of three primary outcome measures: time course spectral power, spatial map intensity, and functional network connectivity. Results revealed robust effects of age on all three outcome measures, largely indicating decreases in network coherence and connectivity with increasing age. Gender effects were of smaller magnitude but suggested stronger intra-network connectivity in females and more inter-network connectivity in males, particularly with regard to sensorimotor networks. These findings, along with the analysis approach and statistical framework described here, provide a useful baseline for future investigations of brain networks in health and disease.

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Genetic triple dissociation reveals multiple roles for dopamine in reinforcement learning

Frank

Moustafa²,

Haughey³

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

638

836

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What are the genetic and neural components that support adaptive learning from positive and negative outcomes? Here, we show with genetic analyses that three independent dopaminergic mechanisms contribute to reward and avoidance learning in humans. A polymorphism in the DARPP-32 gene, associated with striatal dopamine function, predicted relatively better probabilistic reward learning. Conversely, the C957T polymorphism of the DRD2 gene, associated with striatal D2 receptor function, predicted the degree to which participants learned to avoid choices that had been probabilistically associated with negative outcomes. The Val/Met polymorphism of the COMT gene, associated with prefrontal cortical dopamine function, predicted participants' ability to rapidly adapt behavior on a trial-to-trial basis. These findings support a neurocomputational dissociation between striatal and prefrontal dopaminergic mechanisms in reinforcement learning. Computational maximum likelihood analyses reveal independent gene effects on three reinforcement learning parameters that can explain the observed dissociations.basal ganglia ͉ prefrontal cortex ͉ computational model

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A Polymorphism of the μ‐Opioid Receptor Gene (OPRM1) and Sensitivity to the Effects of Alcohol in Humans

Ray¹,

Hutchison²

2004

Alcoholism Clin & Exp Res

305

259

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Effects of Naltrexone on Alcohol Sensitivity and Genetic Moderators of Medication Response

Ray¹,

Hutchison²

2007

Arch Gen Psychiatry

250

234

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Kent E. Hutchison

A Baseline for the Multivariate Comparison of Resting-State Networks

Genetic triple dissociation reveals multiple roles for dopamine in reinforcement learning

A Polymorphism of the μ‐Opioid Receptor Gene (OPRM1) and Sensitivity to the Effects of Alcohol in Humans

Effects of Naltrexone on Alcohol Sensitivity and Genetic Moderators of Medication Response

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