Atrial fibrillation is a common arrhythmia with considerable morbidity and mortality. Limitations in studying both the mechanisms and therapy of atrial fibrillation arise due to the paucity of models that yield sufficiently high-quality data, are not costly, and in which atrial fibrillation is sustained long enough to make the necessary observations. The canine model we present is based on the hypothesis that atrial fibrillation requires heterogeneity of repolarization, that distribution of vagal fibers is heterogeneous in the atria, and that atrial fibrillation will persist after reflex stimulation of vagal efferents by increased systemic arterial pressure. Dogs were anesthetized with morphine-chloralose because this combination maintains nearly intact autonomic control. Systemic arterial pressure was elevated approximately 75 mm Hg during infusion of phenylephrine (2 microg/kg x min(-1)). The right atrium was paced for 20 min at 40 Hz. Atrial fibrillation was sustained after cessation of atrial pacing in dogs receiving phenylephrine, but terminated within seconds in normotensive animals. In conclusion, atrial fibrillation can be maintained for at least 40 min after cessation of rapid atrial pacing in dogs with phenylephrine-induced hypertension.