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Effects of dopaminergic receptor stimulation on Mg2+ regulation in the rat heart and isolated ventricular myocytes
1999
Kang, H.S. | Kim, J.S. | Kim, J.S. (Chonbuk National University, Chonju (Korea Republic). College of Veterinary Medicine)
Magnesium(Mg2+) is one of the most abundant intracellular divalent cation. Although recent studies demonstrate that adrenergic receptor stimulation evokes marked changes in Mg2+ homeostasis, the regulation of Mg2+ by dopaminergic receptor stimulation is not yet known. In this work, we uwed dopaminergic agents to identify which type(s) of receptors were involved inthe mobilization of Mg2+ by dopaminergic receptor stimulation in the perfused rat gearts, isolated myocytes and circulating blood. The mg2+ content was measured by atomic absorbance spedtrophotometry. Dopamine(DA), apomorphine(APO) and pergolide stimulated Mg2+ efflux in the perfused rat hearts and these effects were inhibited by haloperidol or fluphenazine, nonselective dopaminergic antagonists. SKF38393, a selective doparminergic agonist, increased Mg2+ efflux from the perfused hearts in dose dependant manners and SKF38393-induced Mg2+ efflux was potentiated in the presence of sulpiride or eticlopride, D2-selective antagonist, from the perfused hearts. This increase of Mg2+ efflux was blocked by haloperidol or imipramine. DA or pergolide increased in circulating Mg2+ from blood. By contrast, PPHT stimulated Mg2+ influx(a decrease in efflux) from the perfused hearts and circulating blood. PPHT-induced Mg2+ influx was blocked by fluphenazine in the perfused hearts. DA-stimulated Mg2+ efflux was inhibited by dopaminergic antagoinst in the isolated myocytes. In conclusion, the flux of Mg2+ is modulated by DA receptor activation in the rat hearts. The efflux of Mg2+ can be increased by D1-receptor stimulation and decreased by D2-receptor stimulation, respectively.
显示更多 [+] 显示较少 [-]Anesthetic and cardiovascular effects of xylazine/fentanyl/azaperone and medetomidine/midazolam as preanesthetics and combinations with their antagonists in halothane-anesthetized dogs
1999
Yang, H.S. | Kweon, O.K. | Woo, H.M. | Nam, T.C. (Seoul National University, Suwon (Korea Republic). College of Veterinary Medicine)
This study was performed to evaluate anesthetic and cardiovascular effects of xylazine/fentanyl/azaperone and medetomidine/midazolam as preanesthetics and their combinations with antagonists in halothane-anesthetized dogs. Eight clinically healthy dogs(4.54+_2.16kg) were used at the interval of more than 14 days between experiments in turn for propionyl promazine(PP 0.3mg/kg, IM), xylazine/fentanyl/azaperone(XFA 2mg/kg, 0.0137mg/kg, 0.11mg/kg, IM), medetomidine/midazolam(MM 0.02mg/kg, 0.3mg/kg, IM), combination of XFA and their antagonists (yohimbine 0.05mg/kg, naloxon 0.0005 mg/kg, IV) and combination of MM and their antagonist(atipamezole 0.08mg/kg IM). The sedation induction times in XFA(2.56+_1.01 min) and MM(5.44+_2.07 min) groups were sighificantly better than that of PP group(10.75+_2.38 min)(p0.05). The thiopental sodium dose required for tracheal intubation in XFA(2.38+_3.38mg/kg) and MM(3.91+_3.47mg/kg)groups were significantly less than that of PP group(12.57+_2.13mg/kg)(p0.05). All time indices expressing the recovery(pedal refles recurrence time, extubation time, arousal time, standing time and walking time) were significantly shorter in the combination groups of XFA or MM with their antagonistis than in PP, XFA and MM groups(p0.05). The suppressions of cardiovascular function of XFA and MM were more than that of PP. Heart rate and cardiac output were recovered by the antagonists of XFA and MM, but mean arterial pressure were not recovered by the antagonists.
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