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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Glutamatergic and Serotonergic Modulation of Rat Medial and Lateral Orbitofrontal Cortex in Visual Serial Reversal Learning.
TL;DR: The results further support dissociable roles of the rodent mOFC and lOFC in deterministic visual reversal learning and indicate that modulating glutamate transmission through blocking the GLT-1 and the 5-HT2AR have different roles in these two structures.
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Effect of Tryptophan Depletion on Conditioned Threat Memory Expression: Role of Intolerance of Uncertainty.
Jonathan W. Kanen,Frederique E. Arntz,Robyn Yellowlees,David M Christmas,Annabel Price,Annemieke M. Apergis-Schoute,Barbara J. Sahakian,Rudolf N. Cardinal,Trevor W. Robbins +8 more
TL;DR: For example, this paper found that the expression of emotional memory was attenuated in participants who had undergone tryptophan depletion, while individuals who were more intolerant of uncertainty showed even greater attenuation of emotion following depletion.
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Corrigendum to “Dissociable aspects of performance on the 5-choice serial reaction time task following lesions of the dorsal anterior cingulate, infralimbic and orbitofrontal cortex in the rat: differential effects on selectivity, impulsivity and compulsivity”: [Behav. Brain Res. 146 (2003) 105–119]
TL;DR: Animals with OFC lesions were not impaired in performance accuracy and made fewer omissions with increasing number of session but made more premature responses compared with the Sham group which reduced with time but the number of perseverative responses remained high throughout the post-operative baseline period.
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Flexible versus Fixed Spatial Self-Ordered Response Sequencing: Effects of Inactivation and Neurochemical Modulation of Ventrolateral Prefrontal Cortex.
Sebastian F.A. Axelsson,Nicole K. Horst,Naotaka Horiguchi,Angela C. Roberts,Trevor W. Robbins +4 more
TL;DR: In this article, the authors used local intracerebral infusions to inactivate the lateral prefrontal cortex (VLPFC) of the New World marmoset to perform spatial self-ordered response sequencing in variable but not fixed spatial arrays.