The frequency-dependent effects of FPL 13210, a new disopyramide derivative, were examined in isolated canine cardiac Purkinje fibers paced at a frequency of 2 Hz and following abrupt changes in pacing cycle length. At 2 Hz, FPL 13210 depressed Vmax, while shortening action potential duration measured at 50% of repolarization (APD50) and not affecting duration measured at 90% of repolarization (APD90). These effects were concentration dependent over the range of 1-30 microM. The depression of Vmax produced by 5 microM FPL 13210 was not significantly different than that produced by 18 microM disopyramide while the preparations were paced constantly at 2 Hz. At these concentrations, recovery of Vmax was slowed by both FPL 13210 and disopyramide. The slow time constant estimated for this relation after exposure to FPL 13210 was approximately 6.5 times longer than that estimated following administration of disopyramide. In addition, APD90s evoked by early premature stimuli in the presence of 5 microM FPL 13210 were longer than those produced in the absence of drug when the diastolic intervals longer than 100 ms produced shorter APD90s after FPL 13210 administration. Therefore, when FPL 13210 is compared to disopyramide using concentrations selected to produce equivalent degrees of Vmax depression, FPL 13210 produced effects on APD90 that were opposite to those produced by disopyramide when the diastolic interval was longer than normal. These effects of FPL 13210 would suggest that this compound should be classified as a class Ic antiarrhythmic agent, unlike disopyramide, a class Ia antiarrhythmic agent.