T
Trevor W. Robbins
Researcher at University of Cambridge
Publications - 1184
Citations - 177352
Trevor W. Robbins is an academic researcher from University of Cambridge. The author has contributed to research in topics: Prefrontal cortex & Cognition. The author has an hindex of 231, co-authored 1137 publications receiving 164437 citations. Previous affiliations of Trevor W. Robbins include Centre national de la recherche scientifique & Massachusetts Institute of Technology.
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Journal ArticleDOI
Deficits in memory and hippocampal long-term potentiation in mice with reduced calbindin D28K expression
Susanna Molinari,Renata Battini,Stefano Ferrari,L Pozzi,A. S. Killcross,Trevor W. Robbins,A. Jouvenceau,Jean-Marie Billard,Patrick Dutar,Yvon Lamour,W A Baker,H Cox,Piers C. Emson +12 more
TL;DR: A role for calbindin D28K protein is suggested in temporally extending a neuronal calcium signal, allowing the activation of calcium-dependent intracellular signaling pathways underlying memory function.
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Approach and avoidance learning in patients with major depression and healthy controls: relation to anhedonia.
Henry W. Chase,Michael J. Frank,Albert Michael,Edward T. Bullmore,Barbara J. Sahakian,Trevor W. Robbins +5 more
TL;DR: The observation of a negative bias or blunting in a group of depressed patients may be dependent on the neuropsychological task and the symptoms of the patients tested, and the results provide insight into how these theories might be further tested.
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Discrimination, reversal, and shift learning in Huntington’s disease: mechanisms of impaired response selection
Andrew D. Lawrence,Barbara J. Sahakian,Robert D. Rogers,John R. Hodges,John R. Hodges,Trevor W. Robbins +5 more
TL;DR: The results suggested that impaired shift learning in HD is a result of perseverative responding, and suggest specific impairments in response selection mechanisms in HD, in particular, in overcoming selection biases based on prior reinforcement.
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Lesions of the medial and lateral striatum in the rat produce differential deficits in attentional performance.
TL;DR: The data suggest that the medial and lateral striatum have contrasting roles in the control of instrumental responding related to the primary sources of their cortical innervation.
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Neural Systems Underlying Arousal and Attention: Implications for Drug Abusea.
TL;DR: Evidence in rats with selective neurochemical manipulations tested behaviorally using an analog of an attentional task developed for human subjects indicates that the coeruleo‐cortical noradrenergic system is implicated in divided and selective attention.