• D J Cook and P R Housmans.
• Department of Anesthesiology, Mayo Clinic, Rochester, Minnesota 55905.
• Anesthesiology. 1994 Apr 1; 80 (4): 859-71.

BackgroundThe aim of this study was to investigate propofol's effect on myocardial contractility and relaxation and examine its underlying mechanism of action in isolated ferret ventricular myocardium.MethodsThe effects of propofol on variables of contractility and relaxation and on the free intracellular Ca++ transient detected with the Ca(++)-regulated photoprotein aequorin were analyzed. Propofol's effects were evaluated in a preparation in which the sarcoplasmic reticulum function was impaired by ryanodine. The effects of propofol's solvent, intralipid, on myocardial contractility, relaxation, and the intracellular Ca++ transient also were examined.ResultsPropofol, at concentrations of 10 microM or greater, decreased contractility and, at concentrations of 30 of microns or greater, decreased the amplitude of the intracellular Ca++ transient. At equal peak force, control peak aequorin luminescence in [Ca++]o = 2.25 mM and peak aequorin luminescence in 300 microM [Ca++]o = 2.25 mM and peak aequorin luminescence in 300 microM propofol in [Ca++]o > 2.25 mM did not differ, which suggests that propofol does not alter myofibrillar Ca++ sensitivity. After inactivation of sarcoplasmic reticulum Ca++ release with 1 microM ryanodine, a condition in which myofibrillar activation depends almost exclusively on transsarcolemmal Ca++ influx, propofol caused a decrease in contractility and in the amplitude of the intracellular Ca++ transient. Under these conditions, propofol's relative negative inotropic effect did not differ from that in control muscles not exposed to ryanodine. Propofol's solvent, 10% intralipid, exerted a modest positive inotropic effect in this preparation. The intracellular Ca++ transient was unchanged by intralipid. Neither propofol nor intralipid altered the load sensitivity of relaxation.ConclusionsThese findings suggest that the negative inotropic effect of propofol results from a decrease in intracellular Ca++ availability with no changes in myofibrillar Ca++ sensitivity. At least part of propofol's action is attributable to inhibition of transsarcolemmal Ca++ influx.

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