Elimination of Benign Ventricular Premature Beats or Ventricular Tachycardia with Catheter Ablation versus Two Different Optimal Antiarrhythmic Drug Treatment Regimens (Sotalol or Verapamil/Flecainide)

Background: Symptomatic idiopathic ventricular arrhythmias (VA), including premature beats (VPB) and nonsustained ventricular tachycardia (VT) are commonly encountered arrhythmias. Although these VA are usually benign, their treatment can be a challenge to primary and secondary health care providers. Mainstay treatment is comprised of antiarrhythmic drugs (AAD) and, in case of drug intolerance or failure, patients are referred for catheter ablation to tertiary health care centers. These patients require extensive medical attention and drug regimens usually have disappointing results. A direct comparison between the efficacy of the most potent AAD and primary catheter ablation in these patients is lacking. The ECTOPIA trial will evaluate the efficacy of 2 pharmacological strategies and 1 interventional approach to: suppress the VA burden, improve the quality of life (QoL), and safety. Hypothesis: We hypothesize that flecainide/verapamil combination and catheter ablation are both superior to sotalol in suppressing VA in patients with symptomatic idiopathic VA. Study Design: The Elimination of Ventricular Premature Beats with Catheter Ablation versus Optimal Antiarrhythmic Drug Treatment (ECTOPIA) trial is a randomized, multicenter, prospective clinical trial to compare the efficacy of catheter ablation versus optimal AAD treatment with sotalol or flecainide/verapamil. One hundred eighty patients with frequent symptomatic VA in the absence of structural heart disease or underlying cardiac ischemia who are eligible for catheter ablation with an identifiable monomorphic VA origin with a burden ≥5% on 24-h ambulatory rhythm monitoring will be included. Patients will be randomized in a 1:1:1 fashion. The primary endpoint is defined as >80% reduction of the VA burden on 24-h ambulatory Holter monitoring. After reaching the primary endpoint, patients randomized to one of the 2 AAD arms will undergo a cross-over to the other AAD treatment arm to explore differences in drug efficacy and QoL in individual patients. Due to the use of different AAD (with and without β-blocking characteristics) we will be able to explore the influence of alterations in sympathetic tone on VA burden reduction in different subgroups. Finally, this study will assess the safety of treatment with 2 different AAD and ablation of VA.

[1]  L. Mont,et al.  Frequent premature ventricular complexes and normal ejection fraction: to treat or not to treat? , 2019, Heart.

[2]  N. Hawkins,et al.  Outcomes of untreated frequent premature ventricular complexes with normal left ventricular function , 2019, Heart.

[3]  E. Daoud,et al.  Initiation and outcomes with Class Ic antiarrhythmic drug therapy , 2017, Indian pacing and electrophysiology journal.

[4]  William J. Bryant,et al.  2017 AHA/ACC/HRS guideline for management of patients with ventricular arrhythmias and the prevention of sudden cardiac death: Executive summary: A Report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines and the Heart Rhythm Society. , 2017, Heart rhythm.

[5]  Minglong Chen,et al.  Circadian variability patterns predict and guide premature ventricular contraction ablation procedural inducibility and outcomes. , 2018, Heart rhythm.

[6]  G Ardine de Wit,et al.  Dutch Tariff for the Five-Level Version of EQ-5D. , 2016, Value in health : the journal of the International Society for Pharmacoeconomics and Outcomes Research.

[7]  M. Dogan,et al.  The Effects of Female Sex Hormones on Ventricular Premature Beats and Repolarization Parameters in Physiological Menstrual Cycle , 2016, Pacing and clinical electrophysiology : PACE.

[8]  G. Sutherland,et al.  Further insights into blood pressure induced premature beats: Transient depolarizations are associated with fast myocardial deformation upon pressure decline. , 2015, Heart rhythm.

[9]  John Sapp,et al.  EHRA/HRS/APHRS expert consensus on ventricular arrhythmias , 2014, Heart rhythm.

[10]  V. Zipunnikov,et al.  Radiofrequency Ablation Versus Antiarrhythmic Medication for Treatment of Ventricular Premature Beats From the Right Ventricular Outflow Tract: Prospective Randomized Study , 2014, Circulation. Arrhythmia and electrophysiology.

[11]  D. Packer,et al.  Relative efficacy of catheter ablation vs antiarrhythmic drugs in treating premature ventricular contractions: a single-center retrospective study. , 2014, Heart rhythm.

[12]  John Spertus,et al.  Interpreting changes in quality of life in atrial fibrillation: how much change is meaningful? , 2013, American heart journal.

[13]  W. Shen,et al.  Advances in management of premature ventricular contractions , 2012, Journal of Interventional Cardiac Electrophysiology.

[14]  S. Stec,et al.  Benign symptomatic premature ventricular complexes: short- and long-term efficacy of antiarrhythmic drugs and radiofrequency ablation. , 2012, Kardiologia polska.

[15]  V. Somers,et al.  Cardiac arrhythmias in obstructive sleep apnea (from the Akershus Sleep Apnea Project). , 2011, The American journal of cardiology.

[16]  Frank Bogun,et al.  Radiofrequency ablation of frequent, idiopathic premature ventricular complexes: comparison with a control group without intervention. , 2007, Heart rhythm.

[17]  R. Karas,et al.  Effects of Estrogen on Cardiac Electrophysiology in Female Mice , 2002, Journal of cardiovascular electrophysiology.

[18]  T. Sakata,et al.  The effect of propafenone on premature ventricular contractions (PVC): an analysis based on heart rate dependency of PVCs. , 2001, Japanese heart journal.

[19]  J. Kostis,et al.  Premature Ventricular Complexes in the Absence of Identifiable Heart Disease , 1981, Circulation.