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In vivo electrochemical measurement of long-lasting release of dopamine and serotonin induced by intrastriatal kainic acid

Nakazato, T.; Akiyama, A.

Society for Neuroscience Abstracts 21(1-3): 300

1995

ISSN/ISBN: 0190-5295
Accession: 031868801
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Related References

Nakazato, T.; Akiyama, A. 1997: In vivo electrochemical measurement of the long-lasting release of dopamine and serotonin induced by intrastriatal kainic acid Journal of Neurochemistry 69(5): 2039-2047
Frankhuyzen, A.L.; Mulder, A.H. 1977: Release of radiolabeled dopamine, serotonin, acetylcholine and GABA from slices of rat striatum after intrastriatal kainic acid injections Brain Research 135(2): 368-373
Versace, P.; Bocchieri, P.; Marchi, M.; Raiteri, M. 1987: Intrastriatal kainic acid elicits functional supersensitivity of muscarinic receptors regulating dopamine release Neurochemistry International 11(2): 183-188
Dourmap, N.; Michael-Titus, A.; Costentin, J. 1992: Differential effect of intrastriatal kainic acid on the modulation of dopamine release by mu- and delta-opioid peptides: a microdialysis study Journal of Neurochemistry 58(2): 709-713
Jacobsson, S.O.; Cassel, G.E.; Karlsson, B.M.; Sellström, A.; Persson, S.A. 1997: Release of dopamine, GABA and EAA in rats during intrastriatal perfusion with kainic acid, NMDA and soman: A comparative microdialysis study Archives of Toxicology 71(12): 756-765
Carrozza, D.P.; Ferraro, T.N.; Golden, G.T.; Reyes, P.F.; Hare, T.A. 1991: Partial characterization of kainic acid-induced striatal dopamine release using in vivo microdialysis Brain Research 543(1): 69-76
Watanabe, H.; Sekihara, S.; Nomura, Y. 1989: Effect of dopamine receptor antagonist on in vivo dopamine release induced by intrastriatal perfusion with methamphetamine in freely moving rats Methods and Findings in Experimental and Clinical Pharmacology 11(2): 81-85
Zetterström, T.; Brundin, P.; Gage, F.H.; Sharp, T.; Isacson, O.; Dunnett, S.B.; Ungerstedt, U.; Björklund, A. 1986: In vivo measurement of spontaneous release and metabolism of dopamine from intrastriatal nigral grafts using intracerebral dialysis Brain Research 362(2): 344-349
Zetterstrom, T.; Brundin, P.; Gage, F.G.; Sharp, T.; Isacson, O.; Dunnett, S.B.; Ungerstedt, U.; Bjorklund, A. 1985: In vivo measurement of spontaneous release and metabolism of dopamine from intrastriatal nigral grafts using intracerebral dialysis Neuroscience Letters Suppl (22): S556
Gonon, F.; Ponchon, J.L.; Cespuglio, R.; Jouvet, M.; Pujol, J.F. 1978: In vivo electrochemical measurement of dopamine spontaneous and drug induced release in the neo striatum of chronically implanted rats Neuroscience Letters Suppl(1): S278
Nakazato, T.; Horikawa, H.; Akiyama, A. 1997: Long-term effect of intrastriatal sulpiride on serotonin release measured using in vivo voltammetry Society for Neuroscience Abstracts 23(1-2): 530
Nakazato, T.; Horikawa, H.P.; Akiyama, A. 1998: The dopamine D2 receptor antagonist sulpiride causes long-lasting serotonin release European Journal of Pharmacology 363(1): 29-34
Yoshida, M.; Yokoo, H.; Mizoguchi, K.; Tanaka, T.; Emoto, H.; Tanaka, M. 1998: NMDA- and MK801-induced changes in dopamine release are attenuated in kainic acid-lesioned nucleus accumbens of conscious rats: An in vivo microdialysis study Brain Research 786(1-2): 226-229
Yoshida, M.; Mizoguchi, K.; Yokoo, H.; Tanaka, T.; Ishii, H.; Emoto, H.; Koga, C.; Tanaka, M. 1993: Muscimol-induced increase in dopamine release and metabolism is not observed in kainic acid-lesioned striatum of conscious rats: An in vivo microdialysis study Neuroscience Letters 162(1-2): 5-8
Wuerthele, S.M.; Moore, K.E. 1979: Effects of dopaminergic antagonists on striatal DOPAC concentrations and alpha-methyl-p-tyrosine-induced decline of dopamine following intrastriatal injections of kainic acid Journal of Pharmacy and Pharmacology 31(3): 180-182