Conduction System Pacing vs Biventricular Pacing in Systolic Dysfunction and Wide QRS: Mortality, Heart Failure Hospitalization or Cardiac Transplant

Not Applicable

Recruiting

• Conditions: Cardiac Resynchronization Therapy; Heart Failure
• Interventions: Procedure: Biventricular pacing; Procedure: Conduction system pacing

• Registration Number: NCT06105580
• Lead Sponsor: Hospital Clinic of Barcelona

Brief Summary

Conduction system pacing vs biventricular resynchronization therapy in systolic dysfunction and wide QRS: mortality, heart failure hospitalization or cardiac transplant (CONSYST-CRT II trial).

Superiority trial that aims to study the composite endpoint consisting of all-cause mortality, cardiac transplant or heart failure hospitalization at 12-month follow-up.

Detailed Description

To date, studies have shown that conduction system pacing could get similar clinical and echocardiographic responses to those obtained with biventricular therapy.

This study will randomize 320 patients to a strategy of biventricular pacing versus conduction system pacing.

CONSYST-CRT II study will analyze a clinical endpoint as primary endpoint and the following parameters in both groups: left ventricular ejection fraction, ventricular volumes, echocardiographic response (\>=15% decrease in left ventricular end-systolic volume), NYHA functional class, heart failure hospitalization, all-cause mortality, cardiac transplant, QRS shortening, echocardiographic dyssynchrony (atrioventricular, interventricular, intraventricular) and global longitudinal strain.

As a secondary endpoint, baseline predictors of response to conduction system pacing and biventricular pacing according to cardiac magnetic ressonance and electrocardiographic imaging will be studied.

Clinical, electrocardiographic, echocardiographic follow-up will be performed during 12 months.

Study Timeline

• Study First Submitted: 2023-10-04
• Study First Submitted QC: 2023-10-26
• Study First Posted: 2023-10-27
• Study Start: 2023-11-27
• Status Verified: 2025-03
• Last Update Submitted: 2025-03-14
• Last Update Posted: 2025-03-17
• Primary Completion: 2027-11
• Study Completion: 2027-11

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 320

Inclusion Criteria

• Patient must indicate acceptance to participate in the study by signing an informed consent document.
• Patient must be ≥ 18 years of age.
• Left bundle branch block, QRS ≥130 and LVEF <=35%. No indication of stimulation for AV block.
• Non-left bundle branch block, QRS ≥150 and LVEF <=35%.
• Resynchronization therapy indication for ventricular dysfunction (LVEF <40%) and indication of cardiac pacing for AV block.
• LVEF <=35% in NYHA class III or IV, atrial fibrillation and intrinsic QRS >=130 ms, provided a strategy to ensure biventricular capture is in place.

Exclusion Criteria

• Myocardial infarction, unstable angina or cardiac revascularization during the previous 3 months.
• Pregnancy.
• Participating currently in a clinical investigation that includes an active treatment.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Biventricular pacing	Biventricular pacing	Pacing from the right ventricular and coronary sinus lead. Electrocardiographic optimization with fusion-optimized intervals (FOI). Crossover from biventricular pacing to conduction system pacing will be allowed in the following situations: coronary sinus cannot be cannulated; no lateral or posterolateral branches; or phrenic stimulation.
Conduction system pacing	Conduction system pacing	Pacing the His-Purkinje system. Crossover to biventricular pacing allowed in case of failed conduction system pacing: failed His bundle pacing and failed Left bundle branch pacing (high thresholds (\>3.5V / 1ms); no left bundle branch pacing criteria; no left bundle branch correction). Electrocardiographic optimization allowed in order to obtain the narrowest QRS.

Primary Outcome Measures

Name	Time	Method
Composite end-point: all-cause mortality, cardiac transplant or heart failure hospitalization.	1 year	Clinical follow-up at 12 months

Secondary Outcome Measures

Name	Time	Method
Correction of interventricular dyssynchrony.	15 days; 6 months; 1 year	Quantified using pulsed Doppler and calculated as the time difference between QRS onset and the onset of the flow wave in the right and left outflow tracts.
Change in global longitudinal strain (GLS).	15 days; 6 months; 1 year	Strain myocardial deformation of the left ventricle was quantified offline from 2-dimensional echocardiography using speckle tracking (2Dstrain, Echo Pac, version 202.41.0, GE Healthcare Milwaukee, WI). The long-axis cine images (2-, 3-, and 4-chamber views), were used to determine GLS.
Change in left ventricular ejection fraction.	6 months; 1 year	Left ventricular ejection fraction measured with Simpson method with echocardiography.
Echocardiographic response.	6 months; 1 year	\>=15% decrease in left ventricular end-systolic volume
QRS shortening.	Immediately after the intervention	QRS duration (milliseconds). QRS onset measured from fast deflection and from spike.
Correction of septal flash.	15 days; 6 months; 1 year	Fast inward-outward movement of the interventricular septum in early systole. Using M-mode in parasternal short and long-axis views, septal flash was quantified (in millimeters) as the highest amplitude of the early inward motion measured from the resting position prior to the onset of septal contraction. The pair of septal flash measures (baseline and final) was obtained at the axis with the highest baseline SF.
Description of baseline predictors of response to conduction system pacing and biventricular pacing with Electrocardiographic Imaging. Conduction velocity (cm/s).	Baseline (pre intervention). And immediately after the intervention	Conduction velocity (cm/s).
Description of baseline predictors of response to conduction system pacing and biventricular pacing. Cardiac fibrosis quantification.	Baseline (pre intervention).	Cardiac fibrosis quantification (grams of fibrosis)
Correction of auriculoventricular dyssynchrony.	15 days; 6 months; 1 year	Left ventricular filling time. The left ventricular filling time was measured from the onset of the E-wave to the end of the A-wave, and the R-R interval was measured to calculate the percentage of filling time relative to the cardiac cycle (LV filling time/RR, %).
Change in left ventricular end-systolic volume.	6 months; 1 year	Left ventricular volumes measured with echocardiography. Simpson rule from 2- and 4-chamber apical views.
Change in NYHA functional class.	6 months; 1 year	NYHA functional class I, II, III, or IV
Description of baseline predictors of response to conduction system pacing and biventricular pacing with Electrocardiographic Imaging. Left ventricular activation time (LVAT), ms.	Baseline (pre intervention). And immediately after the intervention	Left ventricular activation time (LVAT), ms.
Description of baseline predictors of response to conduction system pacing and biventricular pacing with Electrocardiographic Imaging. Left ventricular dyssynchrony index (LVDI).	Baseline (pre intervention). And immediately after the intervention	Left ventricular dyssynchrony index (LVDI): standard deviation of individual activations recorded from the left ventricle.
Description of baseline predictors of response to conduction system pacing and biventricular pacing with Electrocardiographic Imaging. Ventricular electrical uncoupling (VEU).	Baseline (pre intervention). And immediately after the intervention	Ventricular electrical uncoupling (VEU) = mean left ventricular activation time - mean right ventricular activation time, ms

Trial Locations

Locations (1)

Hospital Clínic de Barcelona; 🇪🇸 Barcelona, Spain