Early Dronedarone Versus Usual Care to Improve Outcomes in Persons With Newly Diagnosed Atrial Fibrillation

NCT ID: NCT05130268

Last Updated: 2025-01-28

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: PHASE4
• Total Enrollment: 339 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2021-10-29
• Study Completion Date: 2024-06-30

Brief Summary

While there are several completed clinical trials that address treatment strategy in patients with symptomatic and recurrent AF, there are no randomized clinical trials that address treatment for first-detected AF. In usual care, these patients are started on an atrioventricular nodal blocking agent (beta-blocker or non-dihydropyridine calcium channel blocker) along with stroke prevention therapy. The investigators hypothesize that earlier administration of a well-tolerated antiarrhythmic drug proven to reduce hospitalization may result in improved cardiovascular outcomes and quality of life in patients first-detected AF.

The purpose of this study is to determine if treatment with dronedarone on top of usual care is superior to usual care alone for the prevention of cardiovascular hospitalization or death from any cause in patients hospitalized with first-detected AF. All patients will be treated with guideline-recommended stroke prevention therapy according to the CHA2DS2-VASc score. The treatment follow-up period will be 12 months. There will be two follow-up visits. Consistent with the pragmatic nature of the trial, the first follow-up will occur between 3 -9 months and the 2nd will occur at 12 months (with a window of +/- 30 days). Approximately 3000 patients will be enrolled and randomly assigned (1:1) to study intervention. The study intervention will be dronedarone 400 mg twice daily in addition to usual care versus usual care alone.

Detailed Description

Atrial fibrillation (AF) is the most common sustained arrhythmia encountered in clinical practice, accounting for one-third of arrhythmia-related hospitalizations.1 As many as 1 in 4 people develop AF over their lifetime after the age of 40 years. The prevalence and burden of AF in the United States is substantial; the age-adjusted incidence and prevalence has increased over the last 3 decades. Moreover, the number of Americans with AF is expected to increase 150% by 2050. The goals of care in the treatment of AF include (1) the management and reduction of risk factors, (2) prevention of tachycardia (rate control), (3) prevention of stroke, and (4) improvement of symptoms. Reduction or elimination of symptoms often requires rhythm control. Historically, randomized clinical trials have not demonstrated a mortality or stroke benefit with a rhythm control versus a rate control strategy.

Despite the failure of prior randomized clinical trials to demonstrate the superiority of rhythm control, the recent Early Treatment of Atrial Fibrillation for Stroke Prevention 4 (EAST-AFNET 4) trial demonstrated that early introduction of a comprehensive rhythm-control strategy (within one year of diagnosis) is superior to guideline-based usual care in improving cardiovascular (CV) outcomes at a mean follow-up of 5 years. The EAST-AFNET 4 trial found that early rhythm control reduced the primary outcome of CV death, stroke, hospitalization for heart failure (HF), or acute coronary syndrome (HR 0.79, 96% confidence interval (CI) 0.66-0.94, p = 0.005). EAST-AFNET 4 also demonstrated a reduction in the risk of stroke with early introduction of rhythm control (HR 0.65, 95% CI 0.44-0.98), a finding that was also observed with dronedarone in the ATHENA trial. In addition, maintenance of sinus rhythm has been associated with improved quality of life and increased exercise capacity in some patients. Outside of clinical trials, a quality-of-life study from the Registry on Cardiac Rhythm Disorders Assessing the Control of Atrial Fibrillation (RECORD-AF) found that rhythm control was associated with better quality of life.

There are several antiarrhythmic drugs (AADs) available for rhythm control of AF. Class I antiarrhythmic agents are predominantly limited to younger patients without coronary artery or structural heart disease. Patients with advanced chronic kidney disease, prolonged QT intervals, and/or severe left ventricular hypertrophy should not be treated with sotalol or dofetilide. Even when sotalol or dofetilide can be used, patients are often hesitant to start a medication that requires an inpatient hospitalization for drug loading and laboratory evaluation every 3 months. Amiodarone has been shown to be the most effective AAD for maintaining sinus rhythm in patients with AF; however, based on its side effect profile, amiodarone is only recommended as a first-line agent under specific clinical circumstances. Moreover, despite its efficacy, amiodarone has high rates of discontinuation due to frequent adverse events. In addition to its unfavorable side effects, several studies, including those of patients at risk for sudden cardiac death, have demonstrated an association between amiodarone use and higher mortality, as well as lower functional status. In contrast to amiodarone, dronedarone is a much better tolerated antiarrhythmic medication. In randomized controlled trials, dronedarone has been shown to prevent recurrent AF, improve rate control, and decrease cardiovascular hospitalization in patients with AF.

While there are several completed clinical trials that address treatment strategy in patients with symptomatic and recurrent AF, there are no randomized clinical trials that address treatment for first-detected or new-onset AF. After appropriate evaluation for oral anticoagulation, these patients are often started on an atrioventricular nodal blocking agent (beta-blocker or non-dihydropyridine calcium channel blocker). The investigators hypothesize that earlier administration of a well-tolerated antiarrhythmic drug proven to reduce hospitalization may result in improved quality of life and cardiovascular outcomes in patients with first-detected AF.

Risk Assessment:

Dronedarone is approved by the Food and Drug Administration to reduce the risk of hospitalization for AF in patients with paroxysmal or persistent AF. The efficacy and safety of dronedarone 400 mg twice daily was evaluated in five controlled studies, ATHENA, ANDROMEDA, European Trial in Atrial Fibrillation or Flutter Patients Receiving Dronedarone for the Maintenance of Sinus Rhythm (EURIDIS), ADONIS, and Dronedarone Atrial FibrillatioN study after Electrical Cardioversion (DAFNE), involving more than 6,000 patients with including more than 3200 patients who received dronedarone. As with any therapeutic agent, there are known risks with dronedarone therapy. These risks include hepatic injury, heart failure exacerbation, increased exposure to digoxin, increased plasma concentration of tacrolimus, sirolimus, and other Cytochrome P450, family 3, subfamily A (CYP 3A) substrates, and very rare instances of pulmonary toxicity. The risks of dronedarone are felt to be outweighed by its benefits. The guideline recommendations provided by the European Society of Cardiology and American Heart Association (AHA)/American College of Cardiology (ACC)/Heart Rhythm Society (HRS) are commensurate with this risk benefit assessment.

Benefit Assessment:

While there are no completed randomized clinical trials to guide selection or initiation of rhythm control therapies in patients with first-detected AF, there are recent trials that suggest benefit with both dronedarone antiarrhythmic therapy and early-initiation of rhythm control in persons with AF. the recent EAST-AFNET 4 trial demonstrated that early introduction of a comprehensive rhythm-control strategy (within one year of diagnosis) is superior to usual guideline-recommended care in improving cardiovascular (CV) outcomes at 5 years. The median time from new-onset AF to randomization in the EAST-AFNET4 trial was 36 days. The trial found that early rhythm control reduced the primary outcome of CV death, stroke, hospitalization for HF, or acute coronary syndrome (HR 0.79, 95% confidence interval 0.66-0.94, p = 0.005). EAST-AFNET 4 also demonstrated a reduction in the risk of stroke with early introduction of rhythm control (HR 0.65, 95% CI 0.44-0.98), a finding that was also observed with dronedarone in the ATHENA trial. Thus, the investigators hypothesize that early initiation of dronedarone in patients with new-onset AF will lead to a reduction in CV hospitalization or death.

Overall Design:

Dronedarone is approved by the Food and Drug Administration to reduce the risk of CV hospitalization in patients with AF or atrial flutter. However, it is unknown if dronedarone (or any antiarrhythmic medication) can reduce CV hospitalization or death in patients with first-detected AF. This trial has been designed to address this important question. In order to facilitate the trial enrollment, data collection, and a generalizability to clinical practice, the CHANGE AFIB study has been designed as an open-label pragmatic clinical trial nested within the Get With The Guidelines (GWTG) Atrial Fibrillation registry. At present the overall GWTG program is being implemented in over 2,300 hospitals across the U.S. and is comprised of over 9 million patient records, with an estimated 650,000 new patient records entered per year. The trial will utilize the existing GWTG registry network, data collection architecture, and experience to facilitate both enrollment and conduct of the trial.

The comparator arm will be "usual care." Thus, this study will compare usual care plus dronedarone versus usual care alone. In most patients, the investigators anticipate usual care to include an atrioventricular nodal blocking agent (beta-blocker, non-dihydropyridine calcium channel blocker, or digoxin) without an antiarrhythmic. As dronedarone has anti-adrenergic rate controlling properties, a low dose of beta-blocker or calcium-channel blocker is recommended in the USPI when starting dronedarone. In the dronedarone arm concomitant digoxin use will be contraindicated due to P-gp interaction based upon data from the PALLAS trial. All patients will receive oral anticoagulation for stroke prevention according to current guideline recommendations.

CHANGE AFIB will leverage several critical advantages as a pragmatic clinical trial. Data collection will be integrated into the Get With The Guidelines AFIB registry. The use of the GWTG-AFIB registry will also enhance subject recruitment and ensure the enrollment of a diverse group of patients. The randomized intervention will be compared with usual care thus further enhancing generalizability. Follow-up visits will be minimized to reduce patient burden. Moreover, follow-up visits will have "windows" to accommodate variation in follow-up intervals at different centers.

Justification for Study Drug Intervention and Dose:

Dronedarone is a non-iodinated benzofuran similar to amiodarone but is not associated with thyroid or pulmonary toxicity in randomized clinical trials or post-marketing observational studies. Dronedarone has electrophysiological characteristics spanning all 4 Vaughan-Williams anti-arrhythmic classes, with primarily class III effects. Initial trials suggested that dronedarone prolonged the time to recurrence of AF and reduced cardiovascular death and hospitalization.

The landmark ATHENA trial evaluated the efficacy and safety of dronedarone in patients with atrial arrhythmias (atrial fibrillation or atrial flutter). This trial did not include patients with a recent history of New York Heart Association (NYHA) class IV heart failure or recent hospitalization for decompensated heart failure (<4 weeks). Approximately, 30% of the ATHENA population had NYHA class I-III heart failure. ATHENA demonstrated that dronedarone 400 mg twice daily (in combination with background therapy) reduced the combined endpoint of CV hospitalization or death from any cause by 24% (p<0.001) compared with placebo. Of course, the ATHENA trial was not conducted in the special population of patients with a new diagnosis of AF. There are no randomized trials or guideline recommendations for antiarrhythmic therapy at the time of first-detected AF. A subgroup analysis from the ATHENA trial suggests that optimal outcomes may be achieved in those patients with shorter duration of AF (time from diagnosis). Similar observations have also been made in patients undergoing other forms of rhythm control, including catheter ablation. In this trial, patients with first-detected AF will be randomized to dronedarone on top of usual care versus usual care alone. Patients randomized to the intervention arm will be prescribed and treated with Dronedarone 400 mg bid. This dose has been chosen as it is the Food and Drug Administration approved dose as well as the dose recommended in current international guidelines. Dronedarone has also been shown to be an effective rate control agent as well. In the ERATO study treatment with dronedarone 400 mg twice daily let to a mean reduction of 24.5 beat/min in patients with permanent AF when compared with placebo. In the EURIDIS/ADONIS studies the mean difference in patients with paroxysmal/persistent AF during AF recurrence was 14 beats/min. Moreover, the dronedarone treated patients experienced improved rate control without any reduction in exercise tolerance as measured by maximal exercise.

Conditions

Atrial Fibrillation

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: NONE

Study Groups

Dronedarone

In most patients, the investigators anticipate usual care to include an atrioventricular nodal blocking agent (beta-blocker, non-dihydropyridine calcium channel blocker, or digoxin) without an antiarrhythmic. As dronedarone has anti-adrenergic rate controlling properties, a low dose of beta-blocker or calcium-channel blocker is recommended in the United States Prescribing Information (USPI) when starting dronedarone. In the dronedarone arm concomitant digoxin use will be contraindicated due to P-gp interaction based upon data from the PALLAS trial. All patients will receive oral anticoagulation for stroke prevention according to current guideline recommendations.

Group Type: EXPERIMENTAL

Dronedarone

Intervention Type: DRUG

Dronedarone 400 mg twice daily in addition to usual care

Usual care

In most patients, the investigators anticipate usual care to include an atrioventricular nodal blocking agent (beta-blocker, non-dihydropyridine calcium channel blocker, or digoxin) without an antiarrhythmic. All patients will receive oral anticoagulation for stroke prevention according to current guideline recommendations.

Group Type: NO_INTERVENTION

No interventions assigned to this group

Interventions

Dronedarone

Dronedarone 400 mg twice daily in addition to usual care

Intervention Type: DRUG

Other Intervention Names

Multaq

Eligibility Criteria

Inclusion Criteria

1. Age >=21 years.

2. First-detected atrial fibrillation (defined as atrial fibrillation diagnosed in the previous 120 days).

3. Electrocardiographic documentation of atrial fibrillation.

4. Estimated life expectancy of at least 1 year.

5. Patient or legal authorized representative capable of giving signed informed consent, which includes compliance with the requirements and restrictions listed in the informed consent form (ICF) and in this protocol.

Exclusion Criteria

1. Patients with prior or planned treatment with rhythm control, either catheter ablation or chronic (>7 days) antiarrhythmic drug therapy.

3. Planned cardiothoracic surgery. 4. New York Heart Association class III or IV heart failure or a hospitalization for heart failure in the last 4 weeks.

5. Patients with reduced ejection fraction (LVEF ≤40%). 6. Permanent atrial fibrillation. 7. Ineligible for oral anticoagulation, unless CHA2DS2-VASc is less than 3 in women or 2 in men.

8. Bradycardia with a resting heart rate < 50 bpm 9. PR interval >280 msec or 2nd degree or 3rd degree atrioventricular block without a permanent pacemaker/cardiac implanted electronic device.

10. Corrected QT interval >=500 msec. 11. Pregnancy or breast feeding. 12. Severe hepatic impairment in the opinion of the investigator.

• Minimum Eligible Age: 21 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Duke Clinical Research Institute

OTHER

Sponsor Role: collaborator

Sanofi

INDUSTRY

Sponsor Role: collaborator

American Heart Association

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Jonathan P Piccini, MD, MHS

Role: PRINCIPAL_INVESTIGATOR

Duke Clinical Research Organization

Locations

Thomas Hospital

Fairhope, Alabama, United States

Mercy Gilbert Medical Center

Gilbert, Arizona, United States

HonorHealth Scottsdale Shea Medical Center

Scottsdale, Arizona, United States

Los Angeles Medical Center (Kaiser Permenente)

Los Angeles, California, United States

West Los Angeles Medical Center

Los Angeles, California, United States

Cedars Sinai Medical Center

Los Angeles, California, United States

UC Irvine Medical Center (AKA UCI Health)

Orange, California, United States

Los Robles Health System - Los Robles Regional Medical Center

Thousand Oaks, California, United States

UCLA Medical Center - Harbor

Torrance, California, United States

Colorado Heart & Vascular Group - St. Anthony's Hospital

Lakewood, Colorado, United States

Colorado Heart & Vascular Group - St. Anthony's North Health Campus

Westminster, Colorado, United States

Christiana Hospital

Newark, Delaware, United States

First Coast Cardiovascular Institute

Jacksonville, Florida, United States

Enmanuel Advanced Research Center, LLC

Miami, Florida, United States

Life Spring Research Foundation, LLC

Miami, Florida, United States

Nouvelle Clinical Research LLC

Miami, Florida, United States

Golden Touch Clinical Research

Miami, Florida, United States

Excellence Medical And Research, LLC

Miami, Florida, United States

The Miami Research Group

Miami, Florida, United States

Ocean Wellness Center, LLC

Miami Gardens, Florida, United States

Pharma Medical Innovations

Miami Lakes, Florida, United States

The Angel Medical Research

Miami Lakes, Florida, United States

Northside Hospital

St. Petersburg, Florida, United States

Guardian Angel Research Center

Tampa, Florida, United States

Northeast Georgia Medical Center

Gainesville, Georgia, United States

Georgia Arrhythmia Consultants and Research Institute

Macon, Georgia, United States

Wellstar Kennestone Hospital

Marietta, Georgia, United States

Mt Sinai Hospital Medical Center

Chicago, Illinois, United States

Rush University Medical Center

Chicago, Illinois, United States

University of Illinois Hospital

Chicago, Illinois, United States

Riverside Medical Center

Kankakee, Illinois, United States

Loyola University Medical Center

Maywood, Illinois, United States

Captain James A Lovell Federal Health Care Center

North Chicago, Illinois, United States

Proctor Community Hospital

Peoria, Illinois, United States

Methodist Medical Center of Illinois

Peoria, Illinois, United States

Trinity Rock Island

Rock Island, Illinois, United States

St. Elizabeth's Hospital of the Hospital Sisters of the Third Order of St. Francis

Springfield, Illinois, United States

St. John's Hospital of the Hospital Sisters of the Third Order of St. Francis

Springfield, Illinois, United States

Carle Foundation Hospital

Urbana, Illinois, United States

Parkview Hospital, Inc.

Fort Wayne, Indiana, United States

Ascension St Vincent Hospital - Indianapolis

Indianapolis, Indiana, United States

Kansas City Heart and Vascular Specialists at Providence Medical Center

Kansas City, Kansas, United States

Overland Park Regional Medical Center

Overland Park, Kansas, United States

Baptist Health Lexington

Lexington, Kentucky, United States

Saint Joseph Hospital

Lexington, Kentucky, United States

Heart Clinic of Hammond

Hammond, Louisiana, United States

Tulane Medical Center

New Orleans, Louisiana, United States

Luminis Health Anne Arundel Medical Center

Annapolis, Maryland, United States

Saint Agnes Hospital

Baltimore, Maryland, United States

Adventist Healthcare Shady Grove Medical Center

Rockville, Maryland, United States

Brigham and Womens Hospital

Boston, Massachusetts, United States

McLaren Bay Region

Bay City, Michigan, United States

DMC Harper University Hospital (AKA Wayne State University Hospital)

Detroit, Michigan, United States

Sparrow Hospital

Lansing, Michigan, United States

McLaren Macomb

Mount Clemens, Michigan, United States

Trinity Health Ann Arbor Hospital - Michigan Heart

Ypsilanti, Michigan, United States

Minneapolis VA Health Care System

Minneapolis, Minnesota, United States

University Hospital - University of Missouri

Columbia, Missouri, United States

Mercy Hospital Springfield

Springfield, Missouri, United States

Barnes-Jewish Hospital (AKA Washington Univ)

St Louis, Missouri, United States

SSM Health Saint Louis University Hospital

St Louis, Missouri, United States

CHI Health Creighton University Medical Center - Bergan Mercy

Omaha, Nebraska, United States

Cooper University Hospital

Camden, New Jersey, United States

The Valley Hospital

Ridgewood, New Jersey, United States

Albany Medical Center

Albany, New York, United States

NewYork-Presbyterian/Columbia University Irving Medical Center

New York, New York, United States

Memorial Sloan Kettering

New York, New York, United States

DiGiovanna Institute for Medical Education & Research

North Massapequa, New York, United States

NYC Health and Hospitals - Lincoln

The Bronx, New York, United States

NYC Health and Hospitals - Jacobi

The Bronx, New York, United States

NYC Health and Hospitals - North Central Bronx

The Bronx, New York, United States

Duke University Hospital

Durham, North Carolina, United States

Durham VA Health Care System

Durham, North Carolina, United States

WakeMed Raleigh Campus

Raleigh, North Carolina, United States

New Hanover Regional Medical Center

Wilmington, North Carolina, United States

Trinity Hospital

Minot, North Dakota, United States

The MetroHealth System

Cleveland, Ohio, United States

Kettering Health Dayton

Dayton, Ohio, United States

Miami Valley Hospital

Dayton, Ohio, United States

Kettering Medical Center

Kettering, Ohio, United States

McLaren - St Lukes Hospital

Maumee, Ohio, United States

Wooster Community Hospital Health System

Wooster, Ohio, United States

Oklahoma City VA Health Care System

Oklahoma City, Oklahoma, United States

University of Oklahoma Health Sciences Center

Oklahoma City, Oklahoma, United States

Penn State Health Holy Spirit Medical Center

Camp Hill, Pennsylvania, United States

Penn State Health Milton S Hershey Medical Center

Hershey, Pennsylvania, United States

Penn State Health St Joseph Medical Center - Main Campus

Reading, Pennsylvania, United States

Ascension Saint Thomas Midtown

Nashville, Tennessee, United States

Ascension Seton Medical Center Austin

Austin, Texas, United States

Texas Health Fort Worth (FKA Texas Health Harris Methodist Hospital Fort Worth)

Fort Worth, Texas, United States

Memorial Hermann - Texas Medical Center

Houston, Texas, United States

Texas Institute of Cardiology

McKinney, Texas, United States

Synapse Clinical Research

Missouri City, Texas, United States

University Hospital at University of Texas San Antonio

San Antonio, Texas, United States

University of Utah Hospital

Salt Lake City, Utah, United States

Chippenham and Johnston Willis Medical Center

Richmond, Virginia, United States

Hunter Holmes McGuire VA Medical Center (AKA Richmond VA Medical Center)

Richmond, Virginia, United States

JW Ruby Memorial Hospital

Morgantown, West Virginia, United States

Mayo Clinic Hospital - Franciscan Healthcare La Crosse

La Crosse, Wisconsin, United States

UW Health at the American Center (AKA UW Health East Madison Hospital)

Madison, Wisconsin, United States

University Hospital - University of Wisconsin-Madison

Madison, Wisconsin, United States

Marshfield Medical Center

Marshfield, Wisconsin, United States

Marshfield Medical Center

Weston, Wisconsin, United States

Countries

United States

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Other Identifiers

176131-M

Identifier Type: -

Identifier Source: org_study_id