Conduction System Pacing Versus Biventricular Pacing After Atrioventricular Node Ablation
- Conditions
- Tachycardia-induced CardiomyopathyAtrial FibrillationHeart Failure
- Interventions
- Device: Biventricular pacemaker implantationDevice: Conduction system pacing device implantationProcedure: AV node ablation
- Registration Number
- NCT05467163
- Lead Sponsor
- University Medical Centre Ljubljana
- Brief Summary
Atrioventricular node ablation (AVNA) with biventricular (BiV) pacemaker implantation is a feasible treatment option in patients with symptomatic refractory atrial fibrillation and heart failure. However, conduction system pacing (CSP) modalities, including His bundle pacing and left bundle branch pacing, could offer advantages over BiV pacing by providing more physiological activation. The randomized, interventional, multicentric study will explore whether CSP is non-inferior to BiV pacing in echocardiographic and clinical outcomes in heart failure (EF \<50%) patients with symptomatic AF and narrow QRS scheduled for AVNA.
- Detailed Description
Atrio-ventricular node ablation (AVNA) with subsequent permanent pacemaker implantation provides definite rate control and represents an alternative therapeutic approach in patients with symptomatic atrial fibrillation (AF) and rapid ventricular rate, refractory to optimal medical treatment or catheter ablation. However, optimal pacing modality remains unclear. Previous studies have demonstrated that biventricular (BiV) pacing followed by AVNA resulted in significant reduction in mortality, heart failure (HF) hospitalizations, significant improvement in symptoms and left ventricular (LV) remodeling. Although, its benefit was much less transparent in patients with narrow QRS and LV impairment, as it still causes abnormal cardiac activation with potential worsening of electrical dyssynchrony. To avoid the detrimental effects of BiV pacing a new concept, conduction system pacing (CSP), including His bundle Pacing (HBP) and left bundle branch pacing (LBBP), was proposed as a potential alternative. Both CSP modalities offer advantages over BiV pacing by providing more physiological activation, avoiding cardiac dyssynchrony and left ventricular dysfunction. Moreover, LBBP showed some advantages over HBP. Since the lead is implanted in the region of the left bundle, which has an adequate distance from the AVNA site, this modality could minimize the risk of increase in capture threshold after AVNA. Additionally, the pacing parameters of LBBP were stable in long-term follow-up studies precluding the need for back-up pacing. Therefore compared to HBP and BiV pacing, LBBP may offer a more feasible physiologic pacing option to be adopted into clinical practice. Some observational studies have already shown positive outcomes of HBP and LBBP in symptomatic AF patients who underwent AVNA with the favorable clinical and echocardiographic improvement compared to BIV pacing, especially in HF patients with narrow baseline QRS and reduced ejection fraction (EF\<50%). However, prospective randomized study evaluating the value of CSP as an alternative approach to BiV pacing in combination with AVNA is lacking.
The purpose of this study is to compare the effects of CSP and conventional BiV pacing on echocardiographic and clinical outcomes in HF patients with symptomatic AF and narrow QRS scheduled for AVNA. In this multicentric study, 82 patients will be randomized into one of two arms: a BiV pacing arm with BiV pacemaker implantation + AVNA or CSP arm with the implantation of a CSP device + AVNA. In patients randomized in CSP group, LBBP will be the preferred pacing technique. If LBBP will be unobtainable, HBP implantation will be attempted. In both arms additional defibrillator backup will be implanted at the discretion of the physician according to the ESC guidelines. In short-term analysis after 6 months, echocardiographic, laboratory and symptomatic parameters will be evaluated. Long-term analysis to assess HF hospitalization, cardiovascular mortality and pacing parameters will be performed after at least 24 months of follow-up.
Investigators hypothesize that CSP could represent a feasible and safe alternative to BiV pacing in terms of clinical and echocardiographic outcomes.
Recruitment & Eligibility
- Status
- RECRUITING
- Sex
- All
- Target Recruitment
- 82
- Symptomatic permanent atrial fibrillation, refractory to drug therapy or failed catheter ablation
- Left ventricular ejection fraction <50%
- Narrow intrinsic QRS ≤ 120 ms
- NT-proBNP > 600 ng/L
- Patient has provided written informed consent
- Age between 18 years and 85 years
- Pre-existing permanent pacemaker, implantable cardioverter-defibrillator or cardiac resynchronization device. Patients who had devices implanted that had <5% of paced beats (i.e., backup pacing) can be enrolled.
- Life expectancy less than 12 months
- Severe concomitant non-cardiac disease
- Pregnancy
- Recent (<3 months) myocardial infarction, percutaneous or surgical myocardial revascularization
- Significant heart valve disease (severe insufficiency or stenosis)
- Contraindication for oral anticoagulation
- Mechanical tricuspid valve replacement
- Unwillingness to participate or lack of availability for follow-up
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Biventricular pacing + AV node ablation AV node ablation Implantation of biventricular pacemaker with or without defibrillator lead placement followed by AV node ablation. Optimal guidelines-based heart failure treatment. Conduction system pacing + AV node ablation AV node ablation Implantation of permanent pacemaker with conduction system pacing (preferably left bundle branch) with or without defibrillator lead placement followed by AV node ablation. Optimal guidelines-based heart failure treatment. Biventricular pacing + AV node ablation Biventricular pacemaker implantation Implantation of biventricular pacemaker with or without defibrillator lead placement followed by AV node ablation. Optimal guidelines-based heart failure treatment. Conduction system pacing + AV node ablation Conduction system pacing device implantation Implantation of permanent pacemaker with conduction system pacing (preferably left bundle branch) with or without defibrillator lead placement followed by AV node ablation. Optimal guidelines-based heart failure treatment.
- Primary Outcome Measures
Name Time Method Change in left ventricular ejection fraction. baseline and 6 months Simpson's method assessed with echo.
- Secondary Outcome Measures
Name Time Method Time to cardiovascular death. at least 24 months Death due to cardiovascular causes.
Number of heart failure hospitalizations. at least 24 months Episodes of heart failure that require unplanned medical attention with increase of diuretic dose or intravenous diuretic therapy.
Laboratory parameters. baseline and 6 months NT-proB-type Natriuretic Peptide (BNP)
Pacing parameters. peri-procedural, at least 24 months Capture threshold measurement.
Time to the first occurrence of heart failure hospitalization. at least 24 months An episode of heart failure that requires unplanned medical attention with increase of diuretic dose or intravenous diuretic therapy.
Change in LV end-diastolic and end-systolic volumes. baseline and 6 months Assessed by echo.
Procedure-associated adverse events. peri-procedural, 30 days after the procedure Lead dislocations, device infection, bleeding, pneumotorax, etc.
ECG parameters. before and after the procedure QRS duration and morphology.
Time to the first occurrence of heart failure hospitalization or cardiovascular death. at least 24 months An episode of heart failure that requires unplanned medical attention with increase of diuretic dose / intravenous diuretic therapy or death due to cardiovascular causes.
Improvement in clinical parameters baseline and 6 months Quality of life measured by European Heart Rhythm Association score of atrial fibrillation (EHRA AF).
Need for procedural reintervention. at least 24 months Unplanned reintervention due to lead dysfunction or dislocation, device infection etc.
Number of detected sustained VT/VF. at least 24 months Detected sustained ventricular tachycardia or ventricular fibrillation on pacemaker telemetry.
Change in clinical parameters baseline and 6 months Quality of life measured by Kansas City Cardiomyopathy Questionnaire (KCCQ).
Change in 6-Minute walk test. baseline and 6 months Standard measurement.
Procedural-related characteristics. peri-procedural Total procedure and fluoroscopy time.
Trial Locations
- Locations (9)
University Hospital Centre Zagreb
🇭🇷Zagreb, Croatia
University Hospital Graz - Divison of Cardiology
🇦🇹Graz, Austria
Hospital Oost-Limburg (Hartzentrum Genk)
🇧🇪Genk, Belgium
University Hospital of Split
🇭🇷Split, Croatia
Clinical Hospital Center Rijeka
🇭🇷Rijeka, Croatia
Acibadem City Clinic Tokuda Hospital - Department of Invasive Electrophysiology
🇧🇬Sofia, Bulgaria
County Clinical emergency hospital of Brasov - Department of Interventional Cardiology
🇷🇴Braşov, Romania
University Medical Centre Ljubljana - Department of cardiovascular surgery
🇸🇮Ljubljana, Slovenia
University Medical Centre Ljubljana - Department of cardiology
🇸🇮Ljubljana, Slovenia