Smartwatches for Detection of Atrial Fibrillation (AFib) in Secondary Prevention of Cryptogenic Stroke

Ischemic Stroke, Cryptogenic, Transient Ischemic Attack, Atrial Fibrillation

Smartwatch, Ischemic stroke, atrial fibrillation

Scientific Background: In secondary prevention of ischemic stroke, detection of atrial fibrillation (AFib) and subsequent anticoagulation therapy reduce the risk of recurrent stroke by approximately 60%. Prolonged electrocardiogram (ECG) monitoring up to 6 months significantly increases detection of AFib in cryptogenic stroke. Wearables like smartwatches have recently been shown to adequately detect AFib in the general population. Thus, prolonged ECG monitoring after cryptogenic ischemic stroke or transient ischemic attack (TIA) using a smartwatch could lead to a reduction of recurrent stroke by prompting adequate anticoagulation therapy and may constitute a cost-effective, non-invasive, and broadly-available alternative to the current standard of care. Hypothesis: The investigators hypothesize that AFib detection via smartwatch in patients with cryptogenic TIA or ischemic stroke is accurate compared to an implantable event recorder. Methods: The investigators introduce a prospective, intraindividual-controlled, multicentre clinical study in patients with cryptogenic ischemic stroke or TIA. In addition to an implanted event recorder as indicated by clinical standard, included patients receive a smartwatch for detection of AFib. ECG-data from smartwatches will be continuously monitored by two independent cardiologists. As soon as AFib is confirmed, a doctoral appointment is set to evaluate start of anticoagulation. The follow-up period will be six months. The study consists of four study visits: a baseline visit, two phone visits at one and three months, and an end of trial visit at six months. Primary Objective: To compare smartwatch and event recorder based analysis for sensitivity and specificity of AFib detection per patient after six months

Ischemic stroke is worldwide the second most frequent cause of death and disability and has a lifetime risk of approximately 25%. In the secondary prevention of ischemic stroke, detection of atrial fibrillation (AFib) and subsequent anticoagulation therapy reduce the risk of recurrent stroke by approximately 60%. Cryptogenic stroke is defined as ischemic stroke for which no probable cause is found despite a full standard evaluation and comprises 25% of all ischemic strokes. Prolonged electrocardiogram (ECG) monitoring for 30 days to 6 months significantly increases the detection of occult paroxysmal AFib in cryptogenic stroke, which is present in 9 - 16%. Thus, prolonged ECG monitoring is likely to lead to a reduction of recurrent stroke by prompting adequate anticoagulation therapy. Still, prolonged AFib screening after stroke is currently suboptimal due to a limitation of resources, loss to follow-up, invasiveness of procedures, and costs. Wearables like smartwatches have recently been shown to adequately detect AFib in the general population. Sensitivity and specificity of AFib detection compared to ECG-based diagnosis is high (93-98% and 90-98%, respectively). Compared to implantable Event Recorders, smartwatch based AFib diagnosis in the general population exhibits a sensitivity of 97.5% for AFib episodes \>1h and a sensitivity of 100% for AFib detection per patient. The investigators hypothesize that AFib detection via smartwatch in patients suffering from cryptogenic transient ischemic attack (TIA) or ischemic stroke is accurate for AFib detection compared to an implantable Event Recorder and might therefore be a non-invasive, cost-effective, widely available alternative, which could potentially change the current standard of post-stroke care. The primary objective is to assess whether AFib detection via smartwatch in patients suffering from cryptogenic TIA/ ischemic stroke is accurate in comparison to implantable Event Recorders. This will be assessed by sensitivity and specificity of AFib detection per patient after six months. The investigators aim on a comparison of smartwatch based, continuous, automated, cardiologist supervised rhythm analysis of photoplethysmography (PPG)- signal and patient activated 1-lead ECG with Event Recorder based, continuous, automated ECG rhythm analysis. This is a prospective, intraindividual-controlled, multicenter clinical study. The study population includes patients with cryptogenic TIA or ischemic stroke and known risk factors for the presence of paroxysmal AFib (see inclusion criteria; CHA2DS2VASc score ≥4, Atrial runs, Left atrial size \> 45mm, Left atrial appendage flow ≤ 0.2m/s). In addition to an implanted Event Recorder according to clinical standard, patients receive a smartwatch. Smartwatch- and Event Recorder-derived heart rhythm are daily uploaded and ana-lyzed by the cardiologists at the Cardiology Core Lab at the Department of Internal Medicine I, Klinikum rechts der Isar, Munich. The obtained data on cardiac arrhythmia will be assessable for each study site in consultation with the Cardiology Core Lab. In case of an arrhythmic event, the obtained data on duration, source of information (e.g., smartwatch PPG signal, smartwatch 1-lead ECG, Event Recorder) will be implemented in the eCRF by the Cardiology Core Lab. In parallel, the study consists of a total of four visits. The baseline visit (Visit 0) may take place within the clinical setting of the acute stroke work up. A table containing a detailed plan of the data to be collected will be provided. Furtherly, the implementation and set-up of the smart-watch will take place within the baseline visit. A manual will be provided for each study center and patient to correctly set up and instruct on the usage of the smartwatch. The second and third visit (Visit 1, Visit 2) constitute phone-visits at one and three months with a tolerated time deviation of one week. The last visit at the end of the study (Visit 3) will be performed at six months with a tolerated time deviation of three weeks. This visit will take place at each pa-tient's study center. A table containing a detailed plan of the data to be collected will be pro-vided for each study center. The first patient is planned to be included approximately in the third quarter of 2023 and the last patient approximately in the first quarter of 2025. Accordingly, the last patient will exit the study ('last patient last visit') approximately by the end of 2025. The clinical study will be carried out in accordance with the study protocol and the principles of the Declaration of Helsinki by the World Medical Association and specific applicable national ethical and regulatory requirements. All patients included in the clinical study will receive standard of care for cryptogenic TIA/ is-chemic stroke. The clinical study protocol does not interfere with generally accepted standards in post stroke care and local SOPs .The applied smartwatch is CE-certified as a medical device for AFib detection. As the study intervention consists in simply wearing a smartwatch (and phone visits are implemented at one and three months), we expect no safety risk for study partici-pants.

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