MERCY: Prospective Evaluation of Biophysical Parameters as Long-term Predictors of Pulmonary Vein Isolation

Sponsor

Maria Cecilia Hospital (Other)

Overall Status

Recruiting

CT.gov ID

NCT05805189

Collaborator

(none)

Enrollment

Location

Arms

27.7

Anticipated Duration (Months)

2.2

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Current, worldwide assessments of the prevalence of AF estimate that 33 million people are affected by this cardiac arrhythmia. As the most common sustained atrial arrhythmia, AF has a well-established association with systemic embolic events, stroke, heart failure, and increased mortality. Current treatment guidelines and consensus statements for patients with AF suggest that most patients should be first managed with a pharmaceutical drug therapy; however, when a patient becomes drug refractory (intolerant or non-responsive), catheter ablation by PV isolation (PVI) is recommended.

The aim of PVI is abolishment of all conducted electrical activity beyond the isolating lesions.

The recent NICE guidelines have established that today RF point-by-point ablation is the most cost-effective treatment approach over a lifetime after failure of 1 or more anti-arrhythmic drugs5, but until now a new technology, HELIOSTAR, RF Balloon, has not been included in this cost-effectiveness analysis

Condition or Disease	Intervention/Treatment	Phase
Atrial Fibrillation	Procedure: pulmonary vein (PV) isolation	N/A

Detailed Description

The multi-electrode RF Balloon catheter (HELIOSTAR, Biosense Webster) is a compliant Balloon with 10 circularly orientated electrodes bonded to its surface. It has been designed to be used in conjunction with the Carto3 system (Biosense Webster, CA). It is able to deliver RF energy directly forming a continuous circular ablation lesion around the PV ostia. With HELIOSTAR, each individual electrode can sense temperature and can be controlled separately. The electrodes can be used for visualization, stimulation, recording and ablation. The compliance of the Balloon allows conformation to the anatomy of the PVs and therefore maximizing tissue contact. The advantages of the RF Balloon include the ease of use to the operator that is associated with Balloon delivery systems, possibility of single shot PVI with tailored RF energy delivery, potentially shorter procedure times and avoidance of collateral damage to non-PVI structures, due to the capacity to individually select and deselect electrodes during ablation.6,7 To date, retrospective analyzes conducted in the RADIANCE and SHINE studies have shown the pre-ablation indicators of optimal electrode positioning and post-RF indicators associated with better outcomes; specifically, baseline impedance range 90-110 Ohms, impedance variability across ten electrodes ≤20 Ohms, baseline electrode temperature ≤31°C, baseline temperature variability ≤3°C and the post-RF indicators (impedance drop ≥12 Ohm and temperature rise ≥6°C) seem to independently predict a durable PVI. To the best of our knowledge, no studies have investigated prospectively the performance of impedance drop and temperature rise of HELIOSTAR ablation in terms of feasibility, acute PVI and post-procedural outcomes.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

60 participants

Allocation:

Randomized

Intervention Model:

Sequential Assignment

Intervention Model Description:

This is a prospective, single-center, randomized study, designed to evaluate the acute achievement of pulmonary vein isolation with HELIOSTAR Balloon catheter. In this study, patients will be treat using prospectively the pre-ablation indicators of optimal electrode positioning in comparison with standard positioning evaluated by fluoroscopy visualization and contrast injection and the optimized biophysical parameters as predictors of long-term efficacy.This is a prospective, single-center, randomized study, designed to evaluate the acute achievement of pulmonary vein isolation with HELIOSTAR Balloon catheter. In this study, patients will be treat using prospectively the pre-ablation indicators of optimal electrode positioning in comparison with standard positioning evaluated by fluoroscopy visualization and contrast injection and the optimized biophysical parameters as predictors of long-term efficacy.

Masking:

Single (Participant)

Primary Purpose:

Treatment

Official Title:

Prospective Evaluation of Biophysical Parameters as Long-term Predictors of PVI With Multi-Electrode Radiofrequency Catheter: Comparison Between CARTO Guided and Fluoroscopy Guided Approach (MERCY Study)

Actual Study Start Date :

Feb 9, 2023

Anticipated Primary Completion Date :

Jun 1, 2025

Anticipated Study Completion Date :

Jun 1, 2025

Arms and Interventions

Arm	Intervention/Treatment
Experimental: B In this group the coaxial alignment of the Balloon to achieve electrode contact before each Radiofrequency (RF) session will be evaluated on CARTO non fluoroscopic system, using the pre-ablation indicators of optimal electrode positioning:baseline impedance range 90-110 Ohms, impedance variability across ten electrodes ≤20 Ohms, baseline electrode temperature ≤31°C, baseline temperature variability ≤3°C. If these values are not satisfied, more segmental applications will be done only for those electrodes that satisfy these parameters. At the end of each RF session, analyzing the post RF indicators, it will be considered a good lesion if impedance drop ≥12 Ohm and temperature rise ≥6°C are obtained. If impedance drop <12 Ohms or temperature rises <6° C, will be considered segmental consolidation application	Procedure: pulmonary vein (PV) isolation The settings used during ablation will be for both groups: 15W, unipolar; 5ml/min baseline irrigation, 35ml/min irrigation during inflation/RF application; 55°C target electrode temperature; RF application time 60s for anterior electrodes, 20s for posterior electrodes. The catheter insertion in Pulmonary vein and ablation workflow will be different for two groups.
Active Comparator: A In this group to ensure the optimal Balloon to PV ostium contact, a 1- to 2-mL initial injection of radiopaque contrast will provide venographic evidence of Balloon occlusion or leak detection. If the venogram does not reveal a leak at the ostium, radiofrequency session will be performed; if the venogram detects a leak, small adjustments with additional pressure toward the side of the leak will secure occlusion at an optimal location. If complete occlusion cannot be made, then separate application of ablation from a different angle should be performed. If the venogram detects a leak, small adjustments with additional pressure toward the side of the leak will secure occlusion at an optimal location	Procedure: pulmonary vein (PV) isolation The settings used during ablation will be for both groups: 15W, unipolar; 5ml/min baseline irrigation, 35ml/min irrigation during inflation/RF application; 55°C target electrode temperature; RF application time 60s for anterior electrodes, 20s for posterior electrodes. The catheter insertion in Pulmonary vein and ablation workflow will be different for two groups.

Arm

Intervention/Treatment

Experimental: B

In this group the coaxial alignment of the Balloon to achieve electrode contact before each Radiofrequency (RF) session will be evaluated on CARTO non fluoroscopic system, using the pre-ablation indicators of optimal electrode positioning:baseline impedance range 90-110 Ohms, impedance variability across ten electrodes ≤20 Ohms, baseline electrode temperature ≤31°C, baseline temperature variability ≤3°C. If these values are not satisfied, more segmental applications will be done only for those electrodes that satisfy these parameters. At the end of each RF session, analyzing the post RF indicators, it will be considered a good lesion if impedance drop ≥12 Ohm and temperature rise ≥6°C are obtained. If impedance drop <12 Ohms or temperature rises <6° C, will be considered segmental consolidation application

Procedure: pulmonary vein (PV) isolation

The settings used during ablation will be for both groups: 15W, unipolar; 5ml/min baseline irrigation, 35ml/min irrigation during inflation/RF application; 55°C target electrode temperature; RF application time 60s for anterior electrodes, 20s for posterior electrodes. The catheter insertion in Pulmonary vein and ablation workflow will be different for two groups.

Active Comparator: A

In this group to ensure the optimal Balloon to PV ostium contact, a 1- to 2-mL initial injection of radiopaque contrast will provide venographic evidence of Balloon occlusion or leak detection. If the venogram does not reveal a leak at the ostium, radiofrequency session will be performed; if the venogram detects a leak, small adjustments with additional pressure toward the side of the leak will secure occlusion at an optimal location. If complete occlusion cannot be made, then separate application of ablation from a different angle should be performed. If the venogram detects a leak, small adjustments with additional pressure toward the side of the leak will secure occlusion at an optimal location

Procedure: pulmonary vein (PV) isolation

Outcome Measures

Primary Outcome Measures

Pulmonary vein single shot isolation [12 months]
The primary objective of this study is PV single shot isolation in acute and at 1-3-6-12 months follow up with stringent monitoring including medical examination (Echo, ECG, and 24h-Holter).. It will be assessed the time necessary to reach the isolation, the number of erogations, the fluoroscopy dose and any use of contrast medium and they will be compared between the two arms. Our aim is to demonstrate that, even in the case of equivalent relapse rates during the follow up, the CARTO guided approach allows patients to benefit from a faster and less invasive procedure compared to the fluoroscopy guided method. This occurs because the former doesn't require contrast medium and the fluoroscopy time is notably reduced.

Secondary Outcome Measures

Correlation of biophysical parameters, procedural, and ablation times [12 months]
correlation of biophysical parameters, procedural, and ablation times between two groups. Therefore the following parameters will be collected: Balloonballoon dwelling time, impedance drop, and temperature rise of each RF sessions, rate of bonus and segmental applications, rate of reconnection. One of the endpoint is the recurrence of atrial tachycardia (AT) and AF after the blanking period (3 months), as measured by ECG and 24h-holter. It will be evaluated by the failure-free rate at 12 months post-index procedure in each cohort.

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years and Older

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

The following criteria must be met for subjects to be eligible for inclusion into the study

Subjects indicated for the treatment of paroxysmal AF with the RF ablation system according to current and future Guidelines and system indications for use
Subjects who are willing and capable of providing informed consent
Patients who have stopped amiodarone for at least one month
Subjects whose age is > 18 years old
Subjects whose age is < 80 years old
Subjects who are willing and capable of participating in all testing associated with this clinical study at an approved clinical investigational center

Exclusion Criteria:

Subjects who meet any one of the following criteria will be excluded from this clinical study

Patients who had already undergo an AF ablation procedure
Any known contraindication to an AF ablation or anticoagulation, including those listed in the instructions for use
Subjects with indication for treatment of AF that is not according to current and future Guidelines and system indications for use
Presence of an intracavitary thrombus
Subjects that are unable or not willing to complete follow-up visits and examination for the duration of the study
Patients with left ventricular ejection fraction < 35%
Women of childbearing potential who are, or plan to become, pregnant during the time of the study (method of assessment upon investigator's discretion)
Hematological contraindications to ionizing radiation exposure
Presence of complex congenital heart disease, and cardiac surgery within 1 month from enrollment
Uncontrolled heart failure
Subjects with severe valvular disease OR with a prosthetic - mechanical or biological- heart valve (not including valve repair and annular rings)
Contraindications to general anesthesia
Subjects who are currently enrolled in another investigational study or registry that would directly interfere with the current study

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Maria Cecilia Hospital	Cotignola	Ravenna	Italy	48033

Sponsors and Collaborators

Maria Cecilia Hospital

Investigators

Principal Investigator: Saverio Iacopino, MD, Maria Cecilia Hospital

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Maria Cecilia Hospital

ClinicalTrials.gov Identifier:

NCT05805189

Other Study ID Numbers:

MERCY

First Posted:

Apr 7, 2023

Last Update Posted:

Apr 7, 2023

Last Verified:

Mar 1, 2023

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Additional relevant MeSH terms:

Atrial Fibrillation

Study Results

No Results Posted as of Apr 7, 2023