Utilization of fatigued and non-fatigued isolated guinea-pig papillary muscles and ventricular myocytes on the comparison of inotropic, chronotropic and intracellular calcium changes induced by monensin and digoxin

Background Depression of myocardial contractility as a result of isoflurane appears to be greater in myocardial hypertrophy, and the cellular basis for this difference in susceptibility is not clear. In this study we examined the effects of isoflurane and sevoflurane on contractility and intracellular calcium in an animal model of pressure-overload hypertrophy. Methods Pressure-overload hypertrophy was established in young male ferrets by banding the main pulmonary artery for 1 month and the effects of isoflurane and sevoflurane on contractility and intracellular calcium ([Ca]i) were examined in isolated right ventricular papillary muscles, trabeculae, and myocytes. Intracellular calcium was measured with the bioluminescent photoprotein aequorin in isolated papillary muscles, and also with the fluorescent indicator fluo-3 in isolated ventricular myocytes. In addition, Ca sensitivity was assessed in isolated trabeculae after disruption of the surface membrane with a nonionic detergent (skinned fibers). Results In the presence of isoflurane and sevoflurane, papillary muscles from banded animals exhibited a greater depression of contractility and isolated ventricular myocytes showed a greater decrease in peak [Ca]i. Furthermore, baseline calcium sensitivity was decreased and the slope of the relationship between [Ca] and force was increased in skinned trabeculae from banded animals. Isoflurane decreased calcium sensitivity in trabeculae from both normal and banded animals. Conclusions These results suggest that changes in [Ca]i and altered calcium sensitivity are both responsible for the exaggerated effects of some volatile anesthetics on contractility in pressure-overload hypertrophy.

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Myocardial Depressant Effects of Desflurane

Anesthesiology ◽

10.1097/01.anes.0000265155.01815.6d ◽

2007 ◽

Vol 106 (5) ◽

pp. 956-966 ◽

Cited By ~ 11

Author(s):

Wyun Kon Park ◽

Myung Hee Kim ◽

Duck Sun Ahn ◽

Jee Eun Chae ◽

Young Seok Jee ◽

...

Keyword(s):

Sarcoplasmic Reticulum ◽

Guinea Pig ◽

Action Potentials ◽

Ventricular Myocytes ◽

Isometric Force ◽

Peak Force ◽

Papillary Muscles ◽

Tyrode Solution ◽

Rapid Cooling ◽

K Current

Background The authors determined whether desflurane altered myocardial excitation-contraction coupling and electrophysiologic behavior in the same manner as isoflurane and sevoflurane. Methods The effects of desflurane on isometric force in guinea pig ventricular papillary muscles were studied in modified standard and in 26 mM K(+) Tyrode solution with 0.1 microm isoproterenol. Desflurane effects on sarcoplasmic reticulum Ca(2+) release were also determined by examining its actions on rat papillary muscles, guinea pig papillary muscles in low-Na(+) Tyrode solution, and rapid cooling contractures. Normal and slow action potentials were recorded using a conventional microelectrode technique. Ca(2+) and K(+) currents of guinea pig ventricular myocytes were examined. Results Desflurane (5.3% and 11.6%) decreased peak force to approximately 70% and 40% of the baseline, respectively, similar to the effects of equianesthetic isoflurane concentrations. With isoproterenol in 26 mM K(+) Tyrode solution, desflurane markedly depressed late peaking force and modestly depressed early peak force. The rested state contractions of rat myocardium or guinea pig myocardium in low-Na(+) Tyrode solution were modestly depressed, whereas rapid cooling contractures were virtually abolished after desflurane administration. Desflurane significantly prolonged the action potential duration. Desflurane reduced L-type Ca(2+) current and the delayed outward K(+) current but did not alter the inward rectifier K(+) current. Conclusions Myocardial depression by desflurane is due to decreased Ca(2+) influx, whereas depolarization-activated sarcoplasmic reticulum Ca(2+) release is modestly depressed, similar to the actions of isoflurane and sevoflurane. Desflurane depressed the delayed outward K(+) current associated with significant lengthening of cardiac action potentials.

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