PMID: 6539226Jun 1, 1984Paper
Role of the basal ganglia in a chemically induced dyskinesia in rat
Experimental Neurology
J S Schneider
Abstract
A complex syndrome consisting of locomotor hyperactivity and a cervical choreoathetoid dyskinesia was produced in rats after 7 to 10 days administration of 3-3 -iminodipropionitrile. Attenuation of motor abnormalities after lesions of the basal ganglia (BG) but not cortical lesions suggests the importance of descending BG influences in this syndrome. Responses of this syndrome to pharmacologic manipulations further argues for BG involvement. This syndrome may be a possible animal model of human hyperkinetic basal ganglia disorders.
References
Feb 1, 1972·Neurology·H L Klawans, R Rubovits
Nov 1, 1974·Neuropharmacology·D Tarsy, R J Baldessarini
Nov 1, 1971·Journal of Comparative and Physiological Psychology·M S LevineJ S Schwartzbaum
Nov 20, 1982·The Journal of Comparative Neurology·J P Donoghue, S P Wise
May 1, 1980·Experimental Neurology·F Motamedi, D H York
Jan 1, 1980·Neuroscience·L A LeeP Slater
Jun 1, 1965·Journal of Personality and Social Psychology·M FISHBEIN
❮ Previous
Next ❯
Citations
Dec 29, 1987·Brain Research·J L CadetE B De Souza
Jul 26, 1988·Brain Research·J L CadetS Fahn
Aug 16, 1991·Brain Research·N OgawaA Mori
Aug 1, 1991·Neuropharmacology·H TaniiK Hashimoto
Apr 1, 1987·Pharmacology, Biochemistry, and Behavior·J L CadetW J Freed
Apr 1, 1989·Pharmacology, Biochemistry, and Behavior·R StennettJ L Cadet
Jun 1, 1990·Pharmacology, Biochemistry, and Behavior·H TaniiK Hashimoto
Jan 5, 1995·Regulatory Peptides·Y KawadaA Mori
Nov 20, 1985·Neuroscience Letters·J S SchneiderT I Lidsky
Dec 3, 1986·Neuroscience Letters·J L Cadet, R B Rothman
Aug 1, 1988·Brain Research Bulletin·R B ChronisterL A Marco
Apr 1, 1991·Brain Research Bulletin·A S PerumalJ L Cadet
Jan 1, 1995·Brain Research Bulletin·M TariqM Arshaduddin
Nov 1, 1991·Toxicology Letters·H TaniiK Hashimoto
Nov 1, 1991·Neurotoxicology and Teratology·K M Crofton, T Knight
May 14, 1998·Neuroscience Research·K IidaN Ogawa
Feb 9, 1999·Neuroscience Research·N Ichinohe, K Shoumura
Mar 31, 1999·Neurochemistry International·E TóthA Lajtha
Jan 1, 1997·Brain Research Bulletin·E TothE S Vizi
Feb 24, 2015·American Journal of Primatology·Carol M Berman
Aug 24, 2007·Sociology of Health & Illness·Victoria M Grace, Ken R Daniels
Apr 1, 1986·Neuropeptides·R B Rothman, J L Cadet
Aug 1, 1987·Neuropeptides·J L Cadet, R B Rothman
Feb 1, 1988·Experimental Neurology·K C BerridgeD Treit
Apr 10, 1989·Brain Research·J L CadetE London
May 1, 1997·Experimental Neurology·H C Cromwell, K C Berridge
Oct 20, 2005·Human Fertility : Journal of the British Fertility Society·Bridget Taylor
Jan 6, 2011·The Behavioral and Brain Sciences·Doug Jones
The iminodipropionitrile (IDPN)-induced dyskinetic syndrome: behavioral and biochemical pharmacology
Jan 1, 1989·Neuroscience and Biobehavioral Reviews·J L Cadet
Jul 1, 1986·Neuropeptides·J L Cadet, T L Braun
Oct 1, 1994·The International Journal of Neuroscience·M TariqG W Bruyn
Jan 1, 1995·Movement Disorders : Official Journal of the Movement Disorder Society·R SprengelmeyerV Hömberg
Jan 4, 2007·Journal of Gerontological Social Work·Nancy Hooyman, Suzanne St Peter
Jan 12, 2012·PloS One·Sebastiaan F W NeggersTjerk P Gutteling
Mar 1, 2012·Cerebral Cortex·Jiajia LiTianzi Jiang
Dec 18, 2013·Cerebral Cortex·Sol LimMarcus Kaiser
May 1, 1987·Journal of Neurology, Neurosurgery, and Psychiatry·A P Moore
Jan 1, 1988·Synapse·J L Cadet, F Karoum
Aug 26, 2021·Neurological Sciences : Official Journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology·Juanjuan HaoBitao Ma
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