R
Raymond J. Dolan
Researcher at University College London
Publications - 940
Citations - 150202
Raymond J. Dolan is an academic researcher from University College London. The author has contributed to research in topics: Prefrontal cortex & Functional magnetic resonance imaging. The author has an hindex of 196, co-authored 919 publications receiving 138540 citations. Previous affiliations of Raymond J. Dolan include VU University Amsterdam & McGovern Institute for Brain Research.
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Disrupted state transition learning as a computational marker of compulsivity
TL;DR: Findings indicate that compulsivity is associated with a dysregulation of state transition learning, wherein the rate of learning is not well adapted to the task environment, and might provide a key target for therapeutic intervention in compulsivity.
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Action and Valence Modulate Choice and Choice-Induced Preference Change
TL;DR: Whether choice was expressed actively or passively affected the dynamics of revaluation differently for positive and negatively valenced items and the choice itself was biased towards action such that subjects tended to choose a photograph obtained by action more often than a photographed obtained through inaction.
Posted ContentDOI
Developmental cognitive neuroscience using Latent Change Score models: A tutorial and applications
Rogier A. Kievit,Andreas M. Brandmaier,Gabriel Ziegler,Anne-Laura van Harmelen,Susanne M. M. de Mooij,Michael Moutoussis,Ian M. Goodyer,Edward T. Bullmore,Peter B. Jones,Peter Fonagy,Ulman Lindenberger,Raymond J. Dolan +11 more
TL;DR: This work describes latent change score modelling as a powerful statistical tool to tease apart the complex processes underlying lifespan development in brain and behaviour using longitudinal data and provides accessible open source code and software examples to fit LCS models.
Journal Article
Parallel neural responses in amygdala subregions and sensory cortex during implicit fear conditioning (vol 13, pg 1044, 2001)
Journal ArticleDOI
Cortical drive of low-frequency oscillations in the human nucleus accumbens during action selection.
Max-Philipp Stenner,Max-Philipp Stenner,Vladimir Litvak,Robb B. Rutledge,Tino Zaehle,Friedhelm C. Schmitt,Jürgen Voges,Hans-Jochen Heinze,Raymond J. Dolan +8 more
TL;DR: Low-frequency cortico-accumbens coupling in humans is demonstrated, both at rest and during a decision-making task, suggesting that this coupling represents a highly conserved regulatory mechanism for action selection.