Comparing Effectiveness and Safety of Left Atrial Appendage Occlusion for Non-valvular Atrial Fibrillation Patients at High Stroke Risk Unable to Use Oral Anticoagulation Therapy

R&D Cardiologie14 sites in 1 country609 target enrollmentJanuary 1, 2021

ConditionsAtrial Fibrillation Anticoagulants and Bleeding Disorders

Overview

Phase: Not Applicable
Intervention: Not specified
Conditions: Atrial Fibrillation
Sponsor: R&D Cardiologie
Enrollment: 609
Locations: 14
Primary Endpoint: Incidence of procedural complications
Status: Active, not recruiting
Last Updated: last year

Overview Investigators Eligibility Criteria Outcomes Sites Similar Trials

Overview

Brief Summary

Up to 5% of Atrial Fibrillation (AF) patients may have or develop contraindications to use oral anticoagulation (OAC). Randomized controlled trial (RCT) data suggest that Left Atrial Appendage Occlusion (LAAO) may provide a non-inferior alternative for cardioembolic stroke protection in patients tolerant to OAC. However, RCT data for LAAO is lacking in patients with contra-indications to OAC using antiplatelet (APT) or no therapy as usual care. The hypothesis underlying this trial is to demonstrate that LAAO is superior to usual care for the prevention of stroke.

Detailed Description

Stroke risk for non-valvular AF is estimated with the CHA2DS2-VASc score. When patients have no risk factors, no anticoagulation is recommended with a Class III, loe B. With 1 risk factor in men and 2 in women, anticoagulation should be considered (class IIA, loe-B). When the CHA2DS2-VASc score is 2 or greater in men (3 or greater in women) anticoagulation is recommended in all with a Class I, loe-A, preferably with a NOAC (class I, loe-A). Platelet inhibitor monotherapy is prohibited with a Class III, loe-A. Patients that have or develop a long-term contra-indication for oral anticoagulation have no class I guideline accepted alternative. Instead it is recommended to modify conditions or interrupt anticoagulants (Class IIB, loe-B). Resumption of oral anticoagulants should be guided by a multidisciplinary team that weighs the risks and benefits of such a course of action (class IIA, loe-C). In patients after an intracranial haemorrhage (ICH), it is recommended to initiate or resume anticoagulation after 2-4 weeks (class IIA, loeC) choosing an agent with low intracranial bleeding risk. There is insufficient data to support the choice of anticoagulant and no evidence at all for avoiding stroke prevention altogether, which has led to wide variations in restarting oral anticoagulation often after several months of abstinence. Over 60% does not even resume therapy after anticoagulation-associated ICH. As the LAA is the dominant source for cardioembolic stroke, mechanical percutaneous endocardial occlusion procedures have been developed. The WATCHMAN and AMULET (both FDA- and CE approval) are the most used but others are emerging. Basically, a cardiac catheterization is performed from the Femoral Vein, passing a 14F catheter through the Inferior Caval Vein and the interatrial septum to the left atrium. The delivery system is then positioned in the LAA ostium, and the device is deployed blocking the entrance and eliminating the LAA from the circulation. The implant procedure is usually guided by trans-esophageal echo imaging to assess device size and determine optimal position before it can be released. Adequate closure is achieved in 99% of patients nowadays, with a low and manageable procedural risk of 2.5%. To avoid device-related thrombus during reendothelialization patients are treated with dual antithrombotic agents, aspirin and clopidogrel in the first 3 months, which is narrowed down to aspirin until 1 year after which time it may be discontinued. The 5-year follow up of PROTECT-AF and PREVAIL showed that LAAO was non-inferior to vitamin K antagonist (VKA) for the primary endpoint of stroke/ TIA/systemic embolism/death (HR 0.82, p-value 0.3), while VKA-patients had significantly more major bleeding events after the implant (HR 0.48, p=0.0003). WATCHMAN LAAO is CE and FDA approved and worldwide almost 100.000 WATCHMAN implantations have now been performed. Currently no RCT outcome data are available comparing WATCHMAN LAAO to any type of NOAC. For AMULET and other LAAO devices there are no published RCT compared to either VKA or NOAC. The EWOLUTION all-comers registry data in over 1000 AF pts (73% unable to use (N)OAC, CHA2DS2-VASc 4.7) WATCHMAN LAAO showed stroke and bleeding rates 80% and 46% lower than expected compared to historical data. In 2 similar AMPLATZER-AMULET LAAO registries of \>1000 AF patients, stroke and bleeding rates were 50-60% lower. Both in the 2020 ESC and the 2019 AHA/ACC guidelines, LAAO has received a Class IIb, loe-B recommendation for stroke prevention in patients with AF that have non-reversible contra-indications for long-term anticoagulation. The COMPARE-LAAO trial studies the effectiveness and safety of LAAO as an alternative means for stroke prevention, to establish whether outcomes in The Netherlands are comparable to literature. In the setting of a randomized controlled trial, LAA will be compared to usual care of anti-platelet therapy or nothing based on individual physician's assessment. Cost-effectiveness will be studied by comparing the additional cost of the procedure to cost of usual care, and the differences in cost between both arms for complications due to stroke and other embolism.

Registry

clinicaltrials.gov

Start Date

January 1, 2021

End Date

November 1, 2026

Last Updated

last year

Study Type

Interventional

Study Design

Parallel

Sex

All

Investigators

Sponsor

R&D Cardiologie

Responsible Party

Principal Investigator

L.V.A. Boersma

Clinical professor

R&D Cardiologie

Eligibility Criteria

Inclusion Criteria

•Documented non-valvular AF (paroxysmal or non-paroxysmal) and
•CHA2DS2-VASc score of 2 or more and
•Unsuitable for long-term use of oral anticoagulation as determined by the referring physician team as well as the multidisciplinary team in the study hospital and
•Suitable for dual APT for at least 3 months and single APT from 3 until at most 12 months and
•At least 18 years of age, and willing and able to provide informed consent and adhere to study rules and regulations and follow-up
•The decision of suitability for LAAO should be made by a multidisciplinary team consisting of at least an echocardiographist, an implanting cardiologist, and a cardiac surgeon. The decision of unsuitability for oral anticoagulation by the referring and implanting centers will be clearly and extensively documented in the study charts. This should include the support of physicians other than the referring and implanting cardiologist. These physicians should be specialists in the field where the contra-indication arises such as neurology, gastro-enterology, internal medicine, urology, or other specialties. In many cases the contra-indication may be due to (repeated) major bleeding.Bleeding will be classified according to the BARC criteria as major with a score of 3 or more. The risk of recurrent bleeding should be established by a multidisciplinary team, as well as the decision that the risk of bleeding recurrence outweighs the benefit of restarting oral anticoagulation, which will be documented in the charts. Alternative reasons not to use anticoagulation should be major and irreversible. These may be highly variable and may include but are not limited to occupational or life-style hazards, drug side-effects, ineffectiveness, intolerance, renal or liver failure, falling hazards, vascular problems, cerebral amyloid deposition, and coagulation disorders.

Exclusion Criteria

•Any invasive cardiac procedure within 30 days prior to randomization and 90 days after LAAO that would interfere with the study follow-up and medication
•Unsuitable LAA anatomy for closure or thrombus in the LAA at the time of procedure
•Contraindications or unfavourable conditions to perform cardiac catheterization or TEE
•Atrial septal malformations, atrial septal defect or a high-risk patient foramen ovale that may cause thrombo-embolic events
•Atrial septal defect repair or closure device or a patent foramen ovale repair or any other anatomical condition as this may preclude an LAAO procedure
•LVEF\<31% and/or heart failure NYHA 3-4
•Mitral valve regurgitation grade 3 or more
•Mitral stenosis as this makes AF by definition valvular in nature
•Aortic valve stenosis (AVA\<1.0 cm2 or Pmax\>50 mmHg) or regurgitation grade 3 or more
•Planned cardiac surgery for any reason within 3 months

Outcomes

Primary Outcomes

Incidence of procedural complications

Time Frame: Procedure up to 30 days

Defined as major procedure-related events that require prolonged hospitalization and/or specific treatment, or that lead to permanent physical or mental disability, including but not limited to: pericardiocentesis, major access site bleeding (BARC), any other major bleeding (BARC), device dislocation from the LAA to the heart or aorta, stroke, death, or other severe complications that are considered due to the procedure

Time to first occurrence of ischemic or hemorrhagic or undetermined stroke.

Time Frame: Minimal follow up is 1 year, maximum follow up +/- 5 years

Time to first occurrence of the composite of stroke (ischemic or hemorrhagic or undetermined), TIA and systemic embolism.

Time Frame: Minimal follow up is 1 year, maximum follow up +/- 5 years

Secondary Outcomes

Major bleeding event rate (according to BARC criteria)(both procedural up to 7 days, as well as total (through study completion, an average of 3 years))
Number of patients with successful device deployment(procedural up to 7 days)
Patient-reported health quality assessed by the SF12 questionnaire(baseline, 3, 6, 12 months, after that on a yearly base (until the end of the study, max follow up +/- 5 years))
Device related thrombus event rate(Through study completion, an average of 3 years)
The composite event rate of stroke (ischemic or hemorrhagic), TIA, systemic embolism and cardiovascular death.(Through study completion, an average of 3 years)
Ischemic stroke event rate(Through study completion, an average of 3 years)
Systemic embolism (SE) event rate(Through study completion, an average of 3 years)
Net-clinical benefit of efficacy and safety endpoint (calculated as the difference in time to first occurence of stroke, TIA and SE in both arms in comparison to the 30-day rate of procedural complications in both groups)(Through study completion, an average of 3 years)
Disabling stroke event rate(Through study completion, an average of 3 years)
Hemorrhagic stroke event rate(Through study completion, an average of 3 years)
Mortality (cardiovascular) event rate(Through study completion, an average of 3 years)
Mortality (all-cause) event rate(Through study completion, an average of 3 years)
Minor bleeding event rate(both procedural up to 7 days, as well as total (through study completion, an average of 3 years))
Adverse events rate(at 30 days, and from 30 days until end of follow up (max. 5 years, avarage of 3 years))
TIA event rate(Through study completion, an average of 3 years)
Generic health status assessed by the EQ5D5L questionnaire (in order to perform a cost-effectiveness analysis)(Through study completion, an average of 3 years. Questionnaires will be send on a half yearly basis.)
Medical consumption (in order to perform a cost-effectiveness analysis)(Through study completion, an average of 3 years. Questionnaires will be send on a half yearly basis.)
Anxiety and depression assessed by the HADS questionnaire(baseline, 3, 6, 12 months, after that on a yearly base (until the end of the study, max follow up +/- 5 years))
Productivity losses (in order to perform a cost-effectiveness analysis)(Through study completion, an average of 3 years. Questionnaires will be send on a half yearly basis.)