Frederic Huppe-Gourgues

University of Maryland School of Medicine, Baltimore, MD, United States 
nucleus accumbens, dopamine, electrophysiology
"Frederic Huppe-Gourgues"
Mean distance: 14.66 (cluster 6)
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Kang JI, Huppé-Gourgues F, Vaucher E. (2015) Pharmacological Mechanisms of Cortical Enhancement Induced by the Repetitive Pairing of Visual/Cholinergic Stimulation. Plos One. 10: e0141663
Chamoun M, Huppé-Gourgues F, Legault I, et al. (2015) Does donepezil improve visual stimuli detection and perceptivo-cognitive performance of heathy young adults ? Journal of Vision. 15: 1133
Groleau M, Chamoun M, Bhat M, et al. (2015) Regulation of the expression of the cholinergic receptors in the visual cortex following long-term enhancement of visual cortical activity by cholinergic stimulation. Journal of Vision. 15: 30
Groleau M, Kang JI, Huppé-Gourgues F, et al. (2015) Distribution and effects of the muscarinic receptor subtypes in the primary visual cortex. Frontiers in Synaptic Neuroscience. 7: 10
Nomura J, Jaaro-Peled H, Lewis E, et al. (2015) Role for neonatal D-serine signaling: prevention of physiological and behavioral deficits in adult Pick1 knockout mice. Molecular Psychiatry
Nguyen HN, Huppé-Gourgues F, Vaucher E. (2015) Activation of the mouse primary visual cortex by medial prefrontal subregion stimulation is not mediated by cholinergic basalo-cortical projections. Frontiers in Systems Neuroscience. 9: 1
Kang JI, Huppé-Gourgues F, Vaucher E. (2014) Boosting visual cortex function and plasticity with acetylcholine to enhance visual perception. Frontiers in Systems Neuroscience. 8: 172
Groleau M, Nguyen HN, Vanni MP, et al. (2014) Impaired functional organization in the visual cortex of muscarinic receptor knock-out mice. Neuroimage. 98: 233-42
Cécyre B, Zabouri N, Huppé-Gourgues F, et al. (2013) Roles of cannabinoid receptors type 1 and 2 on the retinal function of adult mice. Investigative Ophthalmology & Visual Science. 54: 8079-90
Laplante F, Zhang ZW, Huppé-Gourgues F, et al. (2012) Cholinergic depletion in nucleus accumbens impairs mesocortical dopamine activation and cognitive function in rats. Neuropharmacology. 63: 1075-84
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