Synchronization of automatic cells in S-A node during vagal stimulation in dogs.

In anesthetized, open-chest dogs, one burst of stimuli was delivered to the left or right vagus nerve each cardiac cycle. The timing of the stimulus bursts relative to the cardiac cycle was varied by a constant, small amount on successive cardiac cycles, until the entire cardiac cycle was scanned. The level of vagal activity was changed by varying the number of stimulus pulses in each burst; two levels of activity were used in each experiment. For a given level of vagal activity, the mean cardiac cycle length and the amplitude of the phase-response curve were significantly greater during right than during left vagal stimulation. These response characteristics increased as the level of vagal activity was augmented. The minimum-to-maximum phase differences of the phase-response curve were less during right than during left vagal stimulation and when the level of vagal activity was increased. The disparities between the minimum-to-maximum phase differences for the right and left vagi are probably ascribable to the associated differences in the overall magnitudes of the chronotropic responses, rather than to any fundamental difference in the innervation of the effector cells by nerve fibers originating from the right and left sides.