Sustained increases in heart rate induced by timed repetition of vagal stimulation in dogs.

Abstract

We determined the influence of the "free-running cycle length" (tau FR) on chronotropic responses to one burst of right vagal stimuli per cardiac cycle in anesthetized dogs (tau FR, cycle length that prevailed in absence of right vagal stimulation). We varied tau FR by the following methods: 1) tonic left vagal stimulation in pentobarbital-anesthetized animals; 2) tonic left vagal stimulation plus sinus node cooling in pentobarbital-anesthetized animals; and 3) anesthesia with fentanyl, droperidol, and pentobarbital. When tau FR was less than a critical value [1,019 +/- 60 (SE) ms], right vagal stimulus bursts always had the expected negative chronotropic effect. However, when the tau FR was increased beyond critical value, right vagal stimulus bursts delivered within a specific portion of cardiac cycle actually had a positive chronotropic effect; i.e., cycle lengths diminished to values below tau FR. As tau FR was progressively increased beyond critical value, positive chronotropic response became greater and could be evoked by stimulus bursts delivered within a greater fraction of cardiac cycle. The right vagal stimuli that elicited the maximum positive chronotropic effect were those that were given approximately 235 ms prior to beginning of next atrial depolarization. This critical time probably occurs near the end of the period of phase 4 depolarization of sinus node automatic cells.