The effect of the cardioprotective agent R56865 on the veratridine (VTD)-modified sodium current was investigated in single rabbit cardiac Purkinje cells and ventricular myocytes. A steady, tetrodotoxin (TTX)-sensitive Na+ current (the non-inactivating Na+ current) was absent in most cells studied. In the presence of veratridine (15 x 10(-6) M) a non-inactivating Na+ current could be elicited at membrane potentials between -80 to +60 mV, with a maximum at about 0 mV. R56865 blocked this current effectively. The concentration for half maximal inhibition of the non-inactivating Na+ current was 2 x 10(-7) M. Blockade of this Na+ current by R56865 increased with depolarization. R56865 was much more effective in inhibiting the non-inactivating Na+ current than in inhibiting time-dependent Na+ currents elicited by short depolarizing pulses. The blocking effect of R56865 on the steady state influx of Na+ may contribute to cardioprotection in depolarized cells and in cells with modified Na+ channels as may occur during ischemia and reperfusion.