Wearable Cardiac Monitor to Enhance Detection of Arrhythmia Recurrence After Catheter Ablation of Atrial Fibrillation (WEAR-AF)

Study Description:

The WEAR-AF study is a prospective, multicenter clinical trial designed to evaluate the effectiveness and clinical utility of wearable technology in the detection, monitoring, and management of atrial fibrillation (AF). This study seeks to understand how wearable devices, particularly those with electrocardiogram (ECG) capabilities, can be integrated into routine clinical practice to enhance the early detection and continuous monitoring of AF, a common and potentially serious cardiac arrhythmia.

Background and Rationale:

Atrial fibrillation is a significant public health issue, associated with increased risks of stroke, heart failure, and other cardiovascular complications. Current guidelines emphasize the importance of early detection and continuous monitoring of AF to manage symptoms and prevent complications effectively. Wearable technology, such as smartwatches and fitness trackers equipped with ECG functions, has emerged as a promising tool for real-time AF detection and monitoring. However, the clinical efficacy, accuracy, and patient adherence associated with these devices require further investigation.

Objectives:

The primary objective of the WEAR-AF study is to evaluate the diagnostic accuracy of wearable ECG devices in detecting AF episodes compared to standard clinical practices, such as Holter monitoring and traditional ECGs. Secondary objectives include assessing the impact of continuous AF monitoring on clinical outcomes, including stroke prevention, symptom management, and patient quality of life. The study will also examine patient adherence to the use of wearable technology and its influence on healthcare utilization and costs.

Study Design:

WEAR-AF is a prospective, observational study that will enroll participants across multiple centers. Eligible participants include individuals diagnosed with AF or those at high risk for developing AF. Participants will be provided with wearable devices equipped with ECG capabilities and will be monitored over a specified period. The study will compare the AF detection rates of these wearable devices against standard diagnostic tools, evaluate the consistency of AF management with the wearable devices' data, and document any changes in clinical outcomes over time.

Endpoints:

Primary Endpoint:

Diagnostic accuracy of wearable ECG devices in detecting AF compared to standard methods.

Secondary Endpoints:

Impact of wearable ECG monitoring on stroke incidence and other cardiovascular events.

Changes in AF-related symptoms and quality of life as measured by validated questionnaires.

Patient adherence to the use of wearable technology for continuous AF monitoring.

Healthcare utilization and cost-effectiveness analysis.

Significance:

The WEAR-AF study aims to generate robust evidence on the role of wearable technology in managing AF. By providing insights into the accuracy, utility, and patient adherence to these devices, the study will contribute to the development of guidelines for the integration of wearable technology into clinical practice. The ultimate goal is to improve patient outcomes by enabling more timely and precise management of AF.

Conclusion:

The WEAR-AF study will explore the potential of wearable technology to transform the management of atrial fibrillation. Through this research, we aim to provide valuable data on the effectiveness of wearable ECG devices in real-world settings, offering a foundation for future innovations in digital health and personalized medicine.