Ident. | Authors (with country if any) | Title |
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001363 |
Christopher Kobylecki [Royaume-Uni] ; Michael P. Hill [Canada] ; Alan R. Crossman [Royaume-Uni] ; Paula Ravenscroft [Royaume-Uni, Canada] | Synergistic antidyskinetic effects of topiramate and amantadine in animal models of Parkinson's disease |
003589 |
Michael P. Hill [Royaume-Uni] ; Paula Ravenscroft [Royaume-Uni] ; Steven G. Mcguire [Royaume-Uni] ; Jonathan M. Brotchie [Royaume-Uni, Canada] ; Alan R. Crossman [Royaume-Uni] ; Catherine Rochat [France] ; Mark J. Millan [France] | Antiparkinsonian effects of the novel D3/D2 dopamine receptor agonist, S32504, in MPTP‐lesioned marmosets: Mediation by D2, not D3, dopamine receptors |
004024 |
Michael P. Hill [Royaume-Uni] ; Erwan Bezard [France] ; Steven G. Mcguire [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] ; Jonathan M. Brotchie [Canada] ; Ann Michel [Belgique] ; Renee Grimée [Belgique] ; Henrik Klitgaard [Belgique] | Novel antiepileptic drug levetiracetam decreases dyskinesia elicited by L‐dopa and ropinirole in the MPTP‐lesioned marmoset |
004085 |
Juha-Matti Savola [Finlande] ; Michael Hill [Royaume-Uni] ; Mia Engstrom [Finlande] ; Hannele Merivuori [Finlande] ; Siegfried Wurster [Finlande] ; Steven G. Mcguire [Royaume-Uni] ; Susan H. Fox [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] ; Jonathan M. Brotchie [Royaume-Uni, Canada] | Fipamezole (JP‐1730) is a potent α2 adrenergic receptor antagonist that reduces levodopa‐induced dyskinesia in the MPTP‐lesioned primate model of Parkinson's disease |
004107 |
Gregorio Segovia [Royaume-Uni, Espagne] ; Francisco Mora [Espagne] ; Alan R. Crossman [Royaume-Uni] ; Jonathan M. Brotchie [Royaume-Uni] | Effects of CB1 cannabinoid receptor modulating compounds on the hyperkinesia induced by high‐dose levodopa in the reserpine‐treated rat model of Parkinson's disease |
004315 |
Susan H. Fox [Royaume-Uni] ; Mark Kellett [Royaume-Uni] ; A. Peter Moore [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] ; Jonathan M. Brotchie [Royaume-Uni] | Randomised, double‐blind, placebo‐controlled trial to assess the potential of cannabinoid receptor stimulation in the treatment of dystonia |
004745 |
Susan H. Fox [Royaume-Uni] ; Brian Henry [Royaume-Uni] ; Micheal P. Hill [Royaume-Uni] ; David Peggs [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] ; Jonathan M. Brotchie [Royaume-Uni] | Neural mechanisms underlying peak‐dose dyskinesia induced by levodopa and apomorphine are distinct: Evidence from the effects of the alpha2 adrenoceptor antagonist idazoxan |
004C22 |
Brian Henry [Royaume-Uni] ; Susan H. Fox [Royaume-Uni] ; David Peggs [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] ; Jonathan M. Brotchie [Royaume-Uni] | The α2‐adrenergic receptor antagonist idazoxan reduces dyskinesia and enhances anti‐parkinsonian actions of L‐dopa in the MPTP‐lesioned primate model of Parkinson's disease |
004F74 |
Neill R. Hughes [Royaume-Uni] ; Alexander T. Mcknight [Royaume-Uni] ; Geoffrey N. Woodruff [Royaume-Uni] ; Michael P. Hill [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] ; Brotchie [Royaume-Uni] | Kappa‐opioid receptor agonists increase locomotor activity in the monoamine‐depleted rat model of parkinsonism |
006199 |
Jonathan M. Brotchie [Royaume-Uni] ; Mitchell [Royaume-Uni] ; Michael A. Sambrook [Royaume-Uni] ; Alan R. Crossman [Royaume-Uni] | Alleviation of parkinsonism by antagonism of excitatory amino acid transmission in the medial segment of the globus pallidus in rat and primate |