Abstract
The effects of ethanol, although well studied in the adult myocardium, have been little studied in fetal tissue. Experiments in pregnant animals suggest that ethanol compromises fetal myocardial performance, in utero; however, the physiological mechanism(s)remains obscure. The present report examines, in vitro, the effects of a moderate concentration of ethanol (20 mM) directly on cell membrane potentials and contractility of human fetal left ventricle as determined using intracellular microelectrodes and microforce transducers. We observed significant decreases in action potential amplitude, upstroke velocity, duration of repolarization, and the force of contractions. These effects were reversible. As ethanol crosses the placenta, our findings suggest that moderate concentrations of ethanol, as occur during 'social drinking', may temporarily compromise fetal myocardial performance in utero.