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Marshall Ethanolization, Pulmonary Vein Isolation and Line Completion for Ablation of Persistent Atrial Fibrillation

Not Applicable
Recruiting
Conditions
Atrial Fibrillation
Interventions
Procedure: Destruction of Marshall bundles
Procedure: Pulmonary veins isolation
Procedure: Linear ablation in the left and right atria
Registration Number
NCT04681872
Lead Sponsor
University Hospital, Bordeaux
Brief Summary

In ablation strategy for persistent Atrial Fibrillation (PsAF), ablation limited to Pulmonary Vein (PV) isolation is the most straightforward approach but the result give only 50% of arrhythmia free follow-up. Substrate modification strategies have failed to demonstrate their superiority with variable reported success rate. The Marshall network is a highly arrhythmogenic structure that has not been incorporated in current ablation strategies. The investigators sought to investigate a new ablation strategy that target systematically the vein of Marshall by ethanol infusion. This step is integrated in a new ablation strategy consisting in a global anatomical substrate based ablation including PV isolation and left atrial linear ablation (Marshall-Plan).

Detailed Description

Atrial fibrillation (AF) characterized by a fast and anarchic electrical activation of the atria, results in uncoordinated and inefficient atrial contractions that increases the risks of heart failure and strokes. Besides being a major source of morbidity and mortality, AF is one of the most common heart condition and its prevalence increases with age. Radiofrequency catheter ablation of AF has become one of the treatment of choice in AF resistant to conventional antiarrhythmic drugs. For paroxysmal AF, the ablation strategy is clear and consists in complete pulmonary veins isolation (PVI). However, if this strategy works well in paroxysmal AF, the recurrences rate remains high in persistent AF. Beyond PVI, the ablation strategy that has prevailed over the past two decades remains controversial: the left atrium partition using linear lesions ("cox-maze" strategy); the mapping of the left atrium in AF to identify and localize the arrhythmia sources. Both methods have, besides favoring atrial flutters, failed to demonstrated superiority compared to PVI alone (as showed by the clinical trial STAR AF 2). The investigators aims to test a new method of ablation for patients suffering from persistent AF in order to decrease post ablation recurrence. They propose a strategy targeting the native structures facilitating reentries including the ligament of Marshall (LOM), an embryological remnant. Indeed, two studies have demonstrated that LOM could be the source of focal activities, the substrate of reentries and a strong parasympathetic modulator. For these reasons, LOM may represent a major target in AF treatment besides PV isolation. To date, ablation techniques do not ensure the complete destruction of the Marshall's musculature and parasympathetic ganglia that surround it, largely isolated by a sheath of adipose tissue. To overcome this technical limitation, LOM elimination can be achieved by alcohol injection into the vein of Marshall. This innovative approach will then consist in 3 consecutive steps: 1) the destruction of Marshall bundles by ethanol infusion followed by the ablation of the distal and proximal muscular ramification (coronary sinus and ridge); 2) the standard PV isolation; 3) the linear lesions: the mitral, the roof and of the cavo-tricuspid isthmus, main causes of recurrence in atrial flutter.

Recruitment & Eligibility

Status
RECRUITING
Sex
All
Target Recruitment
262
Inclusion Criteria
  • Age > 18 years of both genders
  • Suitable candidate for catheter and ablation of atrial fibrillation defined as: history of symptomatic persistent atrial fibrillation in the past year documented by ECG,
  • Patient affiliated or beneficiary of social security scheme,
  • Free, informed and written consent signed by the participant and the principal investigator (at least at the inclusion date and before all exams required for the clinical research),
  • Effective contraception for women of childbearing potential.
Exclusion Criteria
  • Prior left atrial heart ablation procedure,
  • Documented left atrial thrombus or another abnormality which precludes catheter introduction,
  • Contraindication to anticoagulation therapy (heparin, warfarin, or novel oral anticoagulant (NOAC)),
  • Contraindication to iodinated contrast products (history of major immediate reaction, thyrotoxicosis),
  • Ethanol hypersensitivity,
  • Unstable angina or ongoing myocardial ischemia,
  • Myocardial infarction within 3 months prior to inclusion,
  • Congenital heart disease, where the underlying abnormality increases the ablation risk,
  • Severe bleeding, clotting or thrombotic disorder,
  • Hypertrophic cardiomyopathy defined by a left ventricular septum thickness > 1.5 cm,
  • Pregnant, parturient or nursing women,
  • Person unable to give informed consent,
  • Patient detained by judicial or administrative order, patient under legal protection (guardianship, curators, safeguarding justice).

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
Marshall Plan armLinear ablation in the left and right atriaPatients will undergo (1) the destruction of Marshall bundles by ethanol infusion followed by ablation of the distal coronary sinus bundles, the ridge and the saddle; (2) the standard pulmonary veins sleeves isolation; (3) and finally the ablation of the mitral, the roof, and the cavo-tricuspid isthmus.
Marshall Plan armDestruction of Marshall bundlesPatients will undergo (1) the destruction of Marshall bundles by ethanol infusion followed by ablation of the distal coronary sinus bundles, the ridge and the saddle; (2) the standard pulmonary veins sleeves isolation; (3) and finally the ablation of the mitral, the roof, and the cavo-tricuspid isthmus.
Marshall Plan armPulmonary veins isolationPatients will undergo (1) the destruction of Marshall bundles by ethanol infusion followed by ablation of the distal coronary sinus bundles, the ridge and the saddle; (2) the standard pulmonary veins sleeves isolation; (3) and finally the ablation of the mitral, the roof, and the cavo-tricuspid isthmus.
Pulmonary vein isolation armPulmonary veins isolation-
Primary Outcome Measures
NameTimeMethod
Recurrence of AF or Atrial Tachycardia (AT) greater than 30 seconds with or without antiarrhythmic medications after a single ablation procedure2 years

Recurrence rate (percentage) of AF or AT \> 30 seconds after the blanking period of 3-months post ablation, at 2 years with or without antiarrhythmic medications after a single ablation procedure. Recurrences will be identified through transtelephonic electrocardiogram (ECG) monitor with weekly transmitted ECG and at any time in case of symptoms.

Secondary Outcome Measures
NameTimeMethod
Recurrence of AF or AT greater than 30 seconds after multiple ablation procedures2 years

Recurrence rate (percentage) of AF or AT \> 30 seconds after the blanking period of 3-months post procedure, at 2 years after multiple ablation procedures. It will be identified through transtelephonic ECG monitor with weekly transmitted ECG and at any time in case of symptoms.

Proportion of patients under antiarrhythmic medications2 years

Percentage of patients

Proportion of patients with repeated proceduresup to 2 years

Percentage of patients

Recurrence of AF or AT greater than 30 seconds after a single ablation procedure (1)2 years

Recurrence rate (percentage) of AF or AT \> 30 seconds after the blanking period of 3-months post procedure, at 2 years, will be identified through transtelephonic ECG monitor with weekly transmitted ECG and at any time in case of symptoms.

Recurrence of AF greater than 30 seconds after a single ablation procedure (2)2 years

Recurrence rate (percentage) of AF \> 30 seconds after the blanking period of 3-months post procedure, at 2 years after a single ablation procedure. It will be identified through transtelephonic ECG monitor with weekly transmitted ECG and at any time in case of symptoms.

Recurrence of AF or AT greater than 30 seconds without antiarrhythmic medications after multiple ablation procedure.2 years

Recurrence rate (percentage) of AF or AT \> 30 seconds after the blanking period of 3-months post procedure at 2-years without antiarrhythmic medications after multiple ablation procedure. It will be identified through transtelephonic ECG monitor with weekly transmitted ECG and at any time in case of symptoms.

Incidence of periprocedural complications2 years

Percentage of periprocedural complications : transient ischemic attack or stroke, cardiac tamponade, atrioesophageal fistula, pericarditis, complications at access site (hematoma, arteriovenous fistula, pseudoaneurysm)

Recurrence of AF greater than 30 seconds after multiple ablation procedure.2 years

Recurrence rate (percentage) of AF \> 30 seconds after the blanking period of 3-months post procedure, at 2 years after a multiple ablation procedure. It will be identified through transtelephonic ECG monitor with weekly transmitted ECG and at any time in case of symptoms.

Recurrence of AF or AT greater than 30 seconds without antiarrhythmic medications after a single ablation procedure.2 years

Recurrence rate (percentage) of AF or AT \> 30 seconds after the blanking period of 3-months post procedure at 2-years without antiarrhythmic medications after a single ablation procedure. It will be identified through transtelephonic ECG monitor with weekly transmitted ECG and at any time in case of symptoms.

Trial Locations

Locations (9)

AZ Sint Jan Brugge

🇧🇪

Brugge, Belgium

Clinique Saint Augustin

🇫🇷

Bordeaux, France

Clermont-Ferrand University Hospital

🇫🇷

Clermont-Ferrand, France

Ambroise Paré Hospital

🇫🇷

Neuilly-sur-Seine, France

Les Franciscaines Hospital

🇫🇷

Nîmes, France

Bordeaux University Hospital

🇫🇷

Pessac, France

Centre Cardiologique du Nord

🇫🇷

Saint-Denis, France

Clinique Pasteur

🇫🇷

Toulouse, France

Toulouse University Hospirtal

🇫🇷

Toulouse, France

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Related News

Linear Ablation with Ethanol Infusion Improves Outcomes in Persistent Atrial Fibrillation

• A randomized clinical trial (PROMPT-AF) found that linear ablation combined with ethanol infusion via the vein of Marshall (EIVOM) and pulmonary vein isolation (PVI) significantly improves rhythm outcomes for patients with persistent atrial fibrillation (AF). • The study included 498 patients undergoing first-time ablation, demonstrating that the combined approach led to a higher rate of freedom from atrial arrhythmia recurrence without antiarrhythmic drugs (70.7% vs 61.5%). • Linear ablation with EIVOM offers an additional benefit in rhythm outcomes for persistent AF ablation compared to PVI alone, with a hazard ratio of 0.73 (95% CI, 0.54-0.99; P = .045). • The intervention effect was consistent across all pre-specified subgroups, suggesting broad applicability of the combined ablation strategy for persistent AF patients.

Linear Ablation Plus Vein of Marshall Ethanol Infusion Improves Outcomes in Persistent Atrial Fibrillation

• A randomized clinical trial (PROMPT-AF) found that linear ablation combined with ethanol infusion via the vein of Marshall (EIVOM) and pulmonary vein isolation (PVI) significantly improved rhythm outcomes in persistent atrial fibrillation (AF) patients. • 70.7% of patients undergoing PVI plus EIVOM and linear ablation were free from atrial arrhythmias at 12 months without antiarrhythmic drugs, compared to 61.5% in the PVI alone group. • The study suggests that adding linear ablation with EIVOM to PVI could be a more effective strategy for managing persistent AF, with consistent benefits across various patient subgroups. • While the combined approach increased procedure and fluoroscopy time, the overall incidence of adverse events was similar, though pericarditis or pericardial effusion was more frequent in the combined therapy group.

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