• J. Cardiovasc. Pharmacol. · Nov 1999

    Comparative Study

    Beta-estradiol acutely potentiates the depression of cardiac excitability by lidocaine and bupivacaine.

    • R A Moller, S Datta, and G R Strichartz.
    • Anesthesia Research Laboratories, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts 02115, USA.
    • J. Cardiovasc. Pharmacol. 1999 Nov 1;34(5):718-27.

    AbstractPregnancy is known to increase myocardial susceptibility to bupivacaine-induced cardiovascular collapse, and prolonged pretreatment of rabbits with high doses of progesterone potentiates bupivacaine's depression of the maximal rate of increase (Vmax) of the cardiac action potential. Short-term effects of progesterone are not detected in vitro, but other steroids elevated during pregnancy might be acutely active in this model. These experiments tested whether acute exposure to beta-estradiol potentiates local anesthetic/antiarrhythmic depression of Vmax and conduction velocity in rabbit cardiac tissue in vitro. Standard intracellular microelectrodes were used to measure electrophysiologic changes produced by beta-estradiol, local anesthetics, or both in dissected segments of heart containing the Purkinje fiber and ventricular muscle cells from ovariectomized rabbits. In tissues preincubated in beta-estradiol (3.3 nM), addition of bupivacaine (10.4 microM), or lidocaine (85.4 and 129 microM) decreased Vmax significantly more than in steroid-free Tyrode's (p<0.001). Alone, beta-estradiol had no effect on Vmax and depression of Vmax by the nonanesthetic Na+ channel blocker tetrodotoxin (TTX, 3 microM) was not potentiated by beta-estradiol. In preparations initially exposed to bupivacaine for 30 min, subsequent addition of beta-estradiol decreased Vmax further within 10 min (p<0.05). Bupivacaine's greater depression of Vmax at higher frequencies (3 Hz) was exaggerated by beta-estradiol. However, the rate-dependent slowing of conduction by bupivacaine was lessened or even reversed by beta-estradiol addition. Such rapid physiologic changes cannot be due to genomic actions by the hormone that take hours to manifest. Nor is the potentiation due to a general decrease in membrane excitability because the comparable inhibition by TTX is insensitive to estradiol. Because beta-estradiol potentiates the inhibition of myocardial excitability, but alleviates the slowing of impulse conduction between the Purkinje fiber and ventricular muscle produced by local anesthetics, the hormone must produce changes in more than one ionic conductance. Both pregnancy and conditions that abnormally alter levels of steroid hormones have ramifications for local anesthetic-induced cardiotoxicity and antiarrhythmic pharmacotherapeutics.

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