This study aims to to evaluate the feasibility of conducting a larger randomized controlled trial (RCT) to assess whether an exercise stress test on an ergometer bicycle could induce sinus rhythm in patients with persistent AF scheduled for electrical cardioversion and if this intervention (regardless of rhythm conversion) could improve health-related quality of life in these patients.
Atrial fibrillation (AF) is one of the most common heart rhythm disorders worldwide. The estimated prevalence of AF in Europe is approximately 2% in the general population and increases with age, reaching 16-24% in individuals aged \> 85 years. AF is significantly associated with an increased risk of heart failure, ischemic stroke, cognitive impairment, vascular dementia, and death. Aside from patient suffering, AF is a large economic burden for the healthcare system, where hospitalization is the major driver, accounting for 50-70% of the annual direct costs. Management of patients with AF is multifaceted. The main components include comorbidity and risk factor management (targeting hypertension, diabetes, heart failure), avoidance of stroke and thromboembolism, and reduction of symptoms through rate and rhythm control. AF episodes may terminate spontaneously, and if they do so within seven days, they are classified as paroxysmal AF. Persistent AF is defined as AF episodes that are not self-terminating. Rhythm control, which involves restoring and maintaining sinus rhythm, is an important part of the management of patients with atrial fibrillation, where the main reason is to reduce symptoms of AF. One alternative treatment is electrical cardioversion (EC), which involves delivering low-energy shocks to the heart in a sedated patient to restore a normal sinus rhythm. A poorly tested alternative to EC in cardioversion is to physically increase the heart rate. In a small observational study, Gates et al. included 18 patients with AF scheduled for EC. The patients underwent a treadmill exercise test, and five (27.8%) converted to sinus rhythm during exercise. None of the patients who failed to convert to sinus rhythm with exercise did so spontaneously before electrical conversion 3 hours to 7 months later. Exercise tests are considered safe when contraindications are adhered to, termination criteria are observed, and appropriately trained personnel administer the tests. Although EC is effective, it involves hospitalization, anesthesia, and the associated costs and risks. If exercise testing proves to be effective for converting AF to sinus rhythm, it could improve arrhythmia management by offering a non-invasive, cost-effective alternative that empowers patients to manage their condition through home-based programs. This approach not only would reduce hospital dependence and healthcare costs but also enhance cardiovascular fitness and overall quality of life.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
60
Patients will undergo a symptom-limited ergometer cycling test under medical supervision. If the atrial fibrillation is not converted to sinus rhythm during the exercise test, the patients will be electrically converted.
Standard care with planned electrical cardioversion without exercise intervention.
Centre for Clinical Research, Uppsala University, Västmanland County Hospital
Västerås, Sweden
Feasibility of the pilot study - Recruitment rate
Number of patients asked to participate in the study
Time frame: Day 1
Feasibility of the pilot study - Consent rate
Number of patients giving written consent to participate in the study
Time frame: Day 1
Feasibility of the pilot study - Participant fidelity
Ability of participants to comply with the intervention protocol.
Time frame: From enrollment to the end of assessments, an average of 2 months
Feasibility of the pilot study - Study retention
Participants dropout rates.
Time frame: Through study completion, an average of 6 months
Feasibility of the pilot study - Adverse events
Side effects and adverse events during the study
Time frame: Through study completion, an average of 6 months
AF conversion to sinus rhythm
Rate of AF conversion to sinus rhythm immediately after intervention
Time frame: Immediately after exercise or electrical conversion
Atrial fibrillation-related quality of life
Atrial fibrillation-related quality of life, as measured by the AFEQT score.
Time frame: At baseline and four weeks after intervention (exercise testing and/or electrical cardioversion)
Overall health-related quality of life
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Overall health-related quality of life, as measured by the EQ VAS (0-100) scale (from EQ5D-5L).
Time frame: At baseline and four weeks after intervention (exercise testing and/or electrical cardioversion)