The purpose of this pragmatic study is to evaluate the safety, performance and effectiveness of the FARAPULSE catheter system (FARAWAVE catheter used in combination with the FARASTAR generator), to treat patients with atrial fibrillation during clinically-indicated ablation procedures
By virtue of its efficiency, safety profile, and potential for improved efficacy, there is tremendous excitement about the role of pulsed field ablation (PFA) to treat atrial fibrillation. Indeed, multiple FDA IDE clinical trials on PFA have been, or are being, conducted to treat AF. However, most FDA pivotal trials studying PFA enroll very selected populations and have highly focused inclusion/exclusion criteria and, typically only paroxysmal or persistent AF patients with limited upper age criteria are included, failure of Class I/III AADs is often required, and other disease states that may particularly benefit from PFA (e.g., PFA might be particularly effective in treating HCM pts with their thickened atrial tissue). In observational European studies of the FARAPULSE catheter system, the technology has proved quite safe and effective in treating most patients with AF. It is a highly efficient ablation system, and can be employed with only deep sedation, and without the need for endotracheal intubation. In addition to the FARAWAVE catheter performing PV isolation and ablation of the posterior left atrium, in the MANIFEST-PF post-approval study of EU experience, the FARAWAVE catheter has also been shown able to create other relevant ablation lesions such as cavo-tricuspid isthmus ablation for typical atrial flutter, or a mitral isthmus line for mitral isthmus flutter. The FARAWAVE multielectrode pentaspline PFA catheter is the study device. It can be deployed in a basket or flower configuration: 1) Both configurations can be used to isolate PVs, 2) The flower configuration can be used to ablate the posterior wall, and 3) Flower configuration for creation of CTI or Mitral Isthmus Lines. The ablation procedure will typically follow the below sequence: * Pulmonary Vein Isolation (PVI) to be achieved in all patients with atrial fibrillation * Posterior wall Ablation: will be used in all persistent/LS-Per AF patients, and as per operator discretion, some paroxysmal AF patients * Additional ablation lesion sets are per investigators' discretion: * Cavo-tricuspid isthmus line * Mitral Isthmus Line * Regional fractionation clusters (allowed but not encouraged) * Any micro-/macro-reentrant atrial tachycardia's * When PFA is performed next to a coronary artery (eg, CTI or mitral isthmus lines), a nitroglycerin pretreatment protocol will be employed as per study protocol. * As part of the ablation procedure, any safety assessments that are considered important (e.g., EGD, coronary angiography, etc.) may be performed as per the investigators' discretion; these data will also be collected. * For a lesion set that cannot be performed using the FARAPULSE catheter technology, a conventional FDA-approved ablation catheter may be used to complete the procedure as per whatever is optimal for the patient outcome This study is a prospective, multi-center, non-randomized, investigator-initiated IDE clinical study to determine the safety and efficacy of the recently FDA-approved FARAPULSE system to treat the "usual" patients presenting in clinical practice for catheter ablation of AF. (An IDE is required because the approval for the FARAPULSE system: i) only includes paroxysmal AF patients, and ii) doesn't include the technology's use for linear lesions such as the cavo-tricuspid isthmus line. Participants will be followed for 12-months post-procedure. There is an optional randomized sub-study looking at the utility of peri-procedural low-dose colchicine in attenuating PFA-related pericardial inflammation and its negative effects (symptoms and atrial arrhythmias). Participants will start low-dose colchicine 5 days prior to PFA procedure and continue up to 3 weeks post-PFA treatment.
The FARAWAVE PFA Catheter is a sterile, single use, over-the-wire, non-deflectable device that is used with the FARASTAR Catheter Connection Cable and FARASTAR Generator to enable delivery of Pulsed Field Ablation energy for irreversible electroporation. The FARAWAVE PFA Catheter has five (5) variably deployable splines. The five splines are undeployed during insertion and removal and during use can deploy continuously from an undeployed state through a partially deployed ("basket-shaped") configuration to a fully deployed ("flower-shaped") configuration with five petals.
For participants in the colchicine sub-study, 0.3 mg BID Colchicine. Colchicine will be prescribed to the patient starting 5 days prior to ablation. Patient will continue the colchicine for 3 weeks post-ablation.
Arrhythmia Research Group
Jonesboro, Arkansas, United States
RECRUITINGNaples Comprehensive Health
Naples, Florida, United States
RECRUITINGThe Mount Sinai Hospital
New York, New York, United States
Number of Acute Procedural Success
Acute Procedural Success is defined as confirmation of entrance block in all targeted PVs, and acute block of all linear lesions that are attempted (eg, CTI or mitral isthmus line). (The use of a non-study catheter for PVI will be considered an effectiveness failure; however, use of a non-study catheter for ablation unrelated to PVI will be noted, but not considered a treatment failure)
Time frame: at the end of the procedure (approximately 60 minutes)
Number of Chronic Single-Procedure Success
Chronic Single-Procedure Success is defined as freedom from all of the following: * Any Detectable AF, AFL or AT; * Any re-ablation for AF, AFL or AT; * Any cardioversion for AF, AFL or AT; * Any use of a non-Failed Class I/III AAD or Amiodarone Where "Detectable AF, AFL or AT" refers to either of the following as recorded by the ICM: * Symptomatic (patient-initiated) recording containing ≥ 30 seconds of continuous AF or AT/AFL * Automatically-detected AF or AT/AFL episodes measured at ≥1 hour in duration (asymptomatic)
Time frame: up to 12 months post procedure
Number of Participant to Achieve Linear Lesion Bidirectional Block
Ability to achieve linear lesion bidirectional block using the Farawave catheter alone; for this endpoint, all linear lesions (CTI and Mitral Isthmus) will be aggregated. This will be ascertained acutely after either a 20 min waiting period or despite pharmacologic stress (eg., IV adenosine or IV isoproterenol).
Time frame: at the end of the procedure (approximately 60 minutes)
Incidence of Primary Adverse Events (PAEs)
Incidence of Primary Adverse Events (PAEs) (within 7 days of the initial procedure). PAEs include the following AEs: * Atrio-Esophageal Fistula * Phrenic Nerve Paralysis * Cardiac Tamponade/perforation * Pulmonary Vein Stenosis * Death * Stroke/CVA * Major Vascular Access * Complication/Bleeding * Thromboembolism * Myocardial Infarction TIA * Device or procedure related death * pulmonary vein stenosis and atrio-esophageal fistula that occur greater than one week (7 days) post-procedure are also considered and analyzed as primary AEs.
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
275
UPMC Pinnacle Hospitals
Harrisburg, Pennsylvania, United States
RECRUITINGTrident Medical Center
North Charleston, South Carolina, United States
RECRUITINGTime frame: within 7 days of procedure
Number of patients who developed pericarditis
Number of patients who developed clinical pericarditis within 2 weeks following ablation. This will be ascertained by comprehensive chart review plus at the routine post-ablation follow-up phone visit at 7 days
Time frame: within 2 weeks from procedure, and at 7 days follow-up visit
Incidence of Serious Adverse Device Effects (SADEs)
Incidence of Serious Adverse Device Effects (SADEs)
Time frame: end of study at 12 months
Incidence of Gastrointestinal symptoms
Incidence of Gastrointestinal symptoms (necessitating cessation of colchicine therapy) for participants in the substudy
Time frame: end of study at 12 months
Freedom from detectable AF, AFL or AT off AADs
Freedom from detectable AF, AFL or AT off AADs, defining detectable AF, AFL or AT as Freedom from detectable AF, AFL or AT
Time frame: end of study 12 months
Number of patients who achieve CT isthmus block
Number of patients achieving CT isthmus block using the Farawave catheter alone will be recorded.
Time frame: end of study 12 months
Freedom from persistent AF at 12 months off AADs
Freedom from persistent AF at 12 months off AADs
Time frame: end of study 12 months
Freedom from symptomatic AT/AF/AFL recurrence
Freedom from symptomatic AT/AF/AFL recurrence
Time frame: end of study 12 months
Change in Blood interleukin-6
Inflammation is common among those with type 2 diabetes. Inflammatory markers (chemicals in the body that lead to inflammation), such as interleukin-6 (Il-6) have been found to be increased in those with type 2 diabetes For participants in substudy.
Time frame: 5 days pre-PFA and 48-72 hours post-PFA
Change in C-reactive protein (CRP)
C-reactive protein (CRP) is produced by the liver. The CRP test is a general test to check for inflammation in the body. It is not a specific test. This means it can reveal that inflammation somewhere in the body, but it cannot pinpoint the exact location or reason. The CRP test is often done with the ESR (erythrocyte or sedimentation rate) test which also looks for inflammation. For participants in substudy.
Time frame: 5 days pre-PFA and 48-72 hours post-PFA
Changes in Tumor Necrosis Factor (TNF)-α
Many people take medicines to reduce the immune system's abnormal response. These are called immunosuppressive medicines. Targeted drugs such as tumor necrosis factor (TNF) blockers can be used for some diseases. For participants in substudy.
Time frame: 5 days pre-PFA and 48-72 hours post-PFA
Changes in Erythrocyte Sedimentation Rate (ESR)
Erythrocyte sedimentation rate (ESR) is also commonly called a sed rate. It is a test that indirectly measures the level of certain proteins in the blood. This measurement correlates with the amount of inflammation in the body. For participants in substudy.
Time frame: 5 days pre-PFA and 48-72 hours post-PFA
Brain natriuretic peptide (BNP) levels
Brain natriuretic peptide (BNP) test is a blood test that measures levels of a protein called BNP that is made by the heart and blood vessels. BNP levels go up when the heart cannot pump the way it should. A result greater than 100 pg/mL is abnormal. The higher the number, the more likely heart failure is present and the more severe it is. For participants in substudy.
Time frame: 5 days pre-PFA and 48-72 hours post-PFA
Change in durability of lesion sets in any patient that undergoes a second procedure
Change in Durability of lesion sets in any patient that undergoes a second procedure (block across attempted lines, absence of electrograms in targeted substrate). Observe if the block(s) achieved at the targeted sites from the index procedure have persisted
Time frame: baseline (index procedure) and end of study 12 months