Wilkoff BL; Dual Chamber and VVI Implantable Defibrillator trial investigators. The Dual Chamber and VVI Implantable Defibrillator (DAVID) Trial: rationale, design, results, clinical implications and lessons for future trials. Card Electrophysiol Rev. 2003 Dec;7(4):468-72. doi: 10.1023/B:CEPR.0000023165.20987.b1. PMID: 15071277.
The Dual Chamber and VVI Implantable Defibrillator (DAVID) Trial: rationale, design, results, clinical implications and lessons for future trials
Abstract
T he Dual Chamber and VVI Implantable Defibrillator (DAVID) trial randomized 506 patients and tested the hypothesis that the dual-chamber pacing mode would produce improved hemodynamics and would in turn reduce congestive heart failure, heart failure hospitalizations, heart failure deaths, atrial fibrillation, strokes, ventricular arrhythmias, and total mortality compared to backup ventricular pacing in patients indicated for implantable defibrillator therapy. Patients had either primary prevention indications (47%) or secondary prevention indications (53%) for implantable defibrillator therapy but had no indications for bradycardia pacemaker support. All the patients had moderate to severe left ventricular dysfunction with a left ventricular ejection fraction of 40% or less (mean = 27%) and were consistently treated with angiotensin converting enzyme inhibitors or angiotensin II receptor blockers (86%) and beta adrenergic blocking agents (85%). The primary combined endpoint of hospitalization for congestive heart failure or death was paradoxically increased and statistically significant ( p = 0.03) at one year in the patients paced in the dual chamber mode (22.6%) compared to patients randomized to ventricular backup pacing (13.3%). Both heart failure hospitalization and mortality contributed outcome. Another perspective would consider this a randomized controlled study of presence or absence of pacemaker therapy in patients with left ventricular dysfunction and indications for implantable defibrillator therapy. Ventricular backup pacing produced less than 3% ventricular and no atrial pacing, while dual chamber pacing produced approximately 60% atrial and ventricular paced heart beats. The poor outcome in the dual chamber paced group correlated with the percentage of right ventricular pacing and suggests that right ventricular pacing caused ventricular dyssynchrony. The poor outcome associated with right ventricular pacing compared to intrinsic activation in the control group of the DAVID trial is reminiscent of the poor outcome associated with prolonged intraventricular conduction activation in the control groups compared to biventricular pacing in the intervention groups of the cardiac resynchronization trials. The direct conclusion from these results are that patients with indications for implantable defibrillators and no indication for pacing should not be paced in the dual chamber pacing mode. It is not appropriate to conclude that only single chamber implantable defibrillators should be implanted. There are other potential advantages to having an implanted atrial lead including improved secondary outcomes. However the DAVID trial results suggest that the dual chamber paced mode was not associated with improved quality of life or decreased frequency of hospitalization, inappropriate shocks from the defibrillator or atrial fibrillation. The more important question is what is the optimal pacing mode in these patients? The AAIR mode is under investigation in the DAVID II study in an attempt to identify a pacing mode that preserves atrio-ventricular synchrony, normal atrio-ventricular timing, prevents bradycardia and also prevents right ventricular stimulation. Caution should be taken to not directly apply these results to patients with either an indication for pacemaker therapy or to patients with an indication for cardiac resynchronization therapy since patients from neither population were included. However, considering the large magnitude of the deleterious effects associated with dual chamber pacing in the DAVID trial future studies should explore the possibility that left ventricular stimulation may be the only pacing mode capable of preventing bradycardia without increasing death and congestive heart failure.