ELECTROPHYSIOLOGIC MECHANISMS RESPONSIBLE FOR INOTROPIC RESPONSES TO KETAMINE IN GUINEA-PIG AND RAT MYOCARDIUM

被引:39
作者
ENDOU, M
HATTORI, Y
NAKAYA, H
GOTOH, Y
KANNO, M
机构
[1] Department of Pharmacology, Hokkaido University, School of Medicine
关键词
HEART; ACTION POTENTIAL; INOTROPIC EFFECT; ANESTHETICS; INTRAVENOUS; KETAMINE; SPECIES; GUINEA PIG; RAT; IONS; CALCIUM; POTASSIUM; PHARMACOLOGY; 4-AMINOPYRIDINE;
D O I
10.1097/00000542-199203000-00014
中图分类号
R614 [麻醉学];
学科分类号
100217 ;
摘要
Inotropic and electrophysiologic effects of ketamine were investigated in cardiac preparations isolated from guinea pigs and rats. Ketamine produced a concentration-dependent negative inotropic effect in electrically driven guinea pig papillary muscles, an effect that was accompanied by a decrease in action potential duration at the 0-mV level (APD0). In contrast, ketamine produced a concentration-dependent positive inotropic effect in rat left atria in the presence of 10(-6) M propranolol. The increase in force of contraction was accompanied by an increase in APD0. Experiments using patch clamp techniques revealed that ketamine reduced the transsarcolemmal Ca2+ current (I(Ca)) as well as the inward rectifier K+ current and delayed outward K+ current in guinea pig single ventricular cells. These results indicate that the shortening of APD. observed in guinea pig papillary muscles might result from the suppression of I(Ca). In rat single ventricular cells ketamine reduced the Ca2+-insensitive transient outward current (I(to)) and did not enhance I(Ca), suggesting that the ketamine-induced prolongation of APD0 observed in rat left atria is due to a decrease in I(to) rather than an increase in I(Ca). Treatment of rat left atria with the specific Ca2+-insensitive I(to) inhibitor 4-aminopyridine (2 mm) produced a positive inotropic effect and prolongation of APD0, and these effects were equivalent to those caused by the highest concentration of ketamine. In the presence of 4-aminopyridine, ketamine failed to induce a positive inotropic effect and instead caused a negative inotropic one. In conclusion, the negative and positive inotropic effects of ketamine may result from the suppression of I(Ca) and I(to), respectively. The inhibitory action on these membrane currents may at least in part explain the species and tissue differences in inotropic responses to ketamine.
引用
收藏
页码:409 / 418
页数:10
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