Electron spin resonance spectroscopy reveals alpha-phenyl-N-tert-butylnitrone spin-traps free radicals in rat striatum and prevents haloperidol-induced vacuous chewing movements in the rat model of human tardive dyskinesia.

Electron spin resonance spectroscopy reveals alpha-phenyl-N-tert-butylnitrone spin-traps free radicals in rat striatum and prevents haloperidol-induced vacuous chewing movements in the rat model of human tardive dyskinesia.

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Nicotine reduces antipsychotic-induced orofacial dyskinesia in rats.Oxidative stress and the antipsychotic-induced vacuous chewing movement model of tardive dyskinesia: evidence for antioxidant-based prevention strategies.Bauhinia forficata prevents vacuous chewing movements induced by haloperidol in rats and has antioxidant potential in vitro.Determination of reactive oxygen species associated with the degeneration of dopaminergic neurons during dopamine metabolism.Harpagophytum Procumbens Ethyl Acetate Fraction Reduces Fluphenazine-Induced Vacuous Chewing Movements and Oxidative Stress in Rat Brain.Alteration of Cytokines Levels in the Striatum of Rats: Possible Participation in Vacuous Chewing Movements Induced by Antipsycotics.

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P2860

Electron spin resonance spectroscopy reveals alpha-phenyl-N-tert-butylnitrone spin-traps free radicals in rat striatum and prevents haloperidol-induced vacuous chewing movements in the rat model of human tardive dyskinesia.

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2004 nî lūn-bûn

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2004年の論文

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2004年学术文章

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Electron spin resonance spectr ...... l of human tardive dyskinesia.

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Electron spin resonance spectr ...... l of human tardive dyskinesia.

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Electron spin resonance spectr ...... l of human tardive dyskinesia.

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Electron spin resonance spectr ...... l of human tardive dyskinesia.

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Electron spin resonance spectr ...... l of human tardive dyskinesia.

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David F Fairfax

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Paul Henry

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Raina M Rogoza

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Ram K Mishra

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Rao F Khan

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Sevil N-Marandi

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Suresh K Gupta

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P2860

Inhibition by memantine of the development of persistent oral dyskinesias induced by long-term haloperidol treatment of rats

Free radical scavengers can differentially modulate the genotoxicity of amsacrine in normal and cancer cells.

Excitatory mechanisms in neuroleptic-induced vacuous chewing movements (VCMs): possible involvement of calcium and nitric oxide.

Markers of glutamatergic neurotransmission and oxidative stress associated with tardive dyskinesia.

Identifying risk factors for tardive dyskinesia among long-term outpatients maintained with neuroleptic medications. Results of the Yale Tardive Dyskinesia Study.

Tardive Dyskinesia

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10.1002/SYN.20078

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corpus striatum

dyskinesia

Electron spin resonance spectroscopy reveals alpha-phenyl-N-tert-butylnitrone spin-traps free radicals in rat striatum and prevents haloperidol-induced vacuous chewing movements in the rat model of human tardive dyskinesia.

about

P2860

P2860

Electron spin resonance spectroscopy reveals alpha-phenyl-N-tert-butylnitrone spin-traps free radicals in rat striatum and prevents haloperidol-induced vacuous chewing movements in the rat model of human tardive dyskinesia.

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