Sympathetic stimulation both shortens the cardiac cycle and potentiates the cardiac response to vagal stimulation. In the present study the effects of sympathetic stimulation on the chronotropic responses of the heart to brief bursts of vagal stimulation were determined in open-chest anesthetized dogs. The sinoatrial nodal pacemaker cells demonstrate a paradoxical response to repetitive bursts of vagal stimuli over a certain portion of the cardiac cycle. That is, the cardiac cycle length does not increase but actually decreases as the vagal stimulation frequency is raised. Background levels of sympathetic stimulation do not significantly alter the range over which this "paradoxical" response occurs. Sympathetic stimulation decreases the cardiac chronotropic response to short bursts of vagal stimuli regardless of the time in the cardiac cycle that the stimulus is given; however, it does not decrease the time from the minimum vagal chronotropic response to the subsequent atrial depolarization although the total cardiac cycle is shortened. Since sympathetic stimulation shifts the overall temporal relationship between vagal stimulation and pacemaker response, small changes in sympathetic tone may greatly alter the cardiac response to phasic vagal stimulation if the vagal stimulus is given at certain times in the cardiac cycle.