Clinical Research Directory

The Southern-Norway Post-Stroke Atrial Fibrillation Study

This study evaluates whether a procedure using a new wireless heart sensor patch is equal to or better than the standard hospital procedures and equipment at detecting an irregular heartbeat called Atrial Fibrillation (AF) after an ischemic stroke. Atrial fibrillation is a major cause of stroke, but it can be difficult to catch because it often comes and goes. The study will include approximately 450 adults who have had a stroke or a transient "mini-stroke" (TIA) within the last two weeks. Participants will be assigned by chance (randomized) to one of two groups: * Group 1 (Intervention): Participants wear the "ECG247 Smart Heart Sensor." This is a small patch that sticks to the chest and connects to a smartphone. It is worn continuously for up to 14 days, even after leaving the hospital. * Group 2 (Standard Care): Participants receive the standard hospital check-up. This typically involves using a "Holter monitor" (a device with wires and electrodes) for a period of about 24 to 48 hours some time after leaving the hospital. The main goal is to see if the procedure using the patch is equal to the standard procedure in detecting atrial fibrillation in participants. The study will also measure how quickly doctors can start the correct medication and how easy the patients find the devices to use.

Stroke Risk Assessment and Markers of Blood Clotting in Patients With Newly Diagnosed Non-valvular Atrial Fibrillation (NVAF), Who Have Not Received Oral Anticoagulation Therapy (OAC-therapy) Prior to Inclusion

Background: Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide. Globally, there are 37.5 million people with AF. AF increases the risk of death, heart failure, and stroke, which severely affect patients and also lead to high healthcare costs. Around 25% of all strokes are caused by AF, and patients with stroke due to AF tend to have a higher risk of death and more disability compared to stroke patients without AF. Stroke prevention is, therefore, an important part of AF treatment, in which blood thinning medication has an important role. However, blood thinners increase the risk of bleeding. Therefore, it is important to divide patients with AF into different risk groups, known as risk assessment, to figure out who will benefit the most from blood thinners. To be able to divide patients into different risk groups, various stroke risk assessment tools have been developed, such as the CHA2DS2-VASc score and the ABC-stroke score. The most commonly used tool is the CHA2DS2-VASc score, including only clinical risk factors, such as high blood pressure, diabetes, etc. The ABC-stroke score, which includes blood markers of heart function, has been proven to outperform the CHA2DS2-VASc score in terms of predicting stroke in AF patients. However, the CHA2DS2-VASc score remains the primary stroke risk assessment tool for AF patients in current guidelines. After looking at the different risk factors, patients are divided into three groups: low, intermediate, and high risk. High-risk patients must take blood-thinning medication for life, while low-risk patients do not need it. In the medium-risk group, it remains uncertain whether blood thinners should be given or not. Despite the broad use of the CHA2DS2-VASc score, the score itself has limitations. The score does not include important factors, such as the duration of AF, the size and function of the upper heart chambers, as well as the stiffness of the heart, and markers of blood clotting, which are proven markers of a state that inceases the risk of blood clots. Furthermore, the CHA2DS2-VASc score does not consider whether heart failure, high blood pressure, and diabetes are well-controlled or not, which could lead to overuse of blood thinners. Therefore, the current risk assessment tools for patients with AF are incomplete, and improvements are needed. Overall hypothesis: Overall hypothesis is that the different components of the CHA2DS2-VASc score and ABC-stroke score affect blood clotting markers differently, depending on whether conditions like heart failure, high blood pressure, and diabetes (modifiable risk factors) are well-controlled or not. Investigators also expect to see differences in blood clotting markers across different stroke risk groups (low, intermediate, and high risk, based on the CHA2DS2-VASc score and ABC-stroke score) in AF patients who have not yet started blood thinning medication. Furthermore, investigators believe that the duration of AF, the size/function of the upper heart chambers, as well as the stiffness of the heart, can reflect an increased risk of blood clots in AF patients. Overall goal of the study: The overall goal of the study is to help improve the current tools used to assess the risk of stroke in patients with newly diagnosed AF. This will be done by adding more factors to the current risk assessment tools that reflect an increased risk of stroke, such as the burden of AF, the size/function of the heart's upper chambers, as well as the stiffness of the heart, and using biomarkers that show the blood's ability to clot as a substitute measure for stroke risk. Methods: The study is a cross-sectional, single-center observational study and will take place at Esbjerg Hospital - University Hospital of Southern Denmark, involving collaboration between the Unit for Thrombosis Research, Department of Clinical Diagnostics and the Department of Cardiology. The study population will consist of 150 participants with newly diagnosed AF. The participants must not be taking a specific type of blood thinner, called anticoagulant therapy (OAC-therapy), before being included in the study. The participants will be recruited with the help of the general practitioners (GPs). The general practitioners will be thoroughly informed about the study and the importance of waiting to start OAC-therapy until the participants have been seen at the cardiology outpatient clinic. The participants will be scheduled for a blood test, an ultrasound of the heart (echocardiography), and a 7-day heart rhythm monitoring within 4 days after their first meeting with the GP.

Responding to AF: Pill-in-Pocket Anticoagulation Guided by Automated Monitoring and Alerts

Atrial Fibrillation (AF) is the most common sustained cardiac arrhythmia, affecting 1-2 million people in the UK. AF is characterised by uncoordinated electrical activation and ineffective contraction of the upper cardiac chambers. AF can occur in temporary episodes, as in paroxysmal AF, or can be sustained continuously beyond 7 days' duration, as in persistent AF. The most significant potential complication of AF is stroke caused by a blood clot (thromboembolic stroke). If untreated, the risk of stroke in AF can be increased as much as five-fold, depending on the presence of other risk factors. The mechanism of thromboembolic stroke in AF patients is complicated and understanding of factors involved remains incomplete. AF has been shown to disrupt normal bodily mechanisms for controlling bleeding and clotting (haemostasis) and normal blood flow inside the cardiac chambers. In disrupting these mechanisms, AF can be said to create a 'prothrombotic' state or environment within the blood and heart (a tendency to form clots) which can lead to blood clot formation and subsequently to stroke. There is research evidence that AF-related stroke risk is not fixed and changes over time. This dynamic risk may be related to the episodic nature of AF, with stroke risk changing during an episode of AF and for a period of weeks after the episode terminates. Analytic studies have shown that the risk of stroke is highest in the days after an AF episode has occurred, peaking at 5 days and returning to baseline by 30 days. Other studies have shown that the duration of the AF episode can also influence the risk of stroke following each episode, with longer episodes being higher risk. This dynamic risk likely relates to changes in the activation of the body's blood-clotting system and changes in blood flow within the heart. Current clinical guidelines recommend that patients with AF and risk factors for stroke are treated with daily, uninterrupted anticoagulation (blood-thinning medication) to reduce the risk of stroke. These guidelines do not take into account the temporal pattern of AF or the frequency or duration of AF episodes. An emerging approach to anticoagulation in AF is pill-in-pocket oral anticoagulation (PIPOAC). In this approach, AF patients only take their anticoagulation in response to episodes of AF, and for a period of time after normal heart rhythm is restored. This approach may suit AF patients who have lower risk, lower frequency AF and who wish to reduce their exposure to anticoagulation medication. It may also suit AF patients who have higher bleeding risk related to anticoagulation. The RESPOND-AF study proposes a novel approach to delivering PIPOAC. It is a pilot study of this novel approach recruiting 50 participants. This includes participants having continuous heart rhythm monitoring using the Medtronic LINQ II implantable cardiac monitor. The LINQ II continuously monitors for evidence of AF. If AF is detected a transmission is uploaded to the Medtronic Carelink cloud portal. Traditionally, healthcare professionals need to sign in to this portal to check for any transmissions. For the purposes of PIPOAC this traditional approach would be too slow and create a burdensome workload for clinicians. Due to the properties of blood clot formation in AF, it is important to initiate oral anticoagulation within 48 hours of AF episode onset to disrupt the clot-formation process. For the purposes of this study, the investigators have developed a custom-designed software which continuously screens for transmissions of AF on the Carelink cloud portal. When an AF episode has been detected by the LINQ II monitor, the software will send an SMS smartphone alert to the patient informing them of the AF episode and instructing them to commence their oral anticoagulation as soon as possible. This approach, if shown to be safe and effective and acceptable to patients, could open the path to wider use of Pill-in-pocket oral anticoagulation. This novel treatment can reduce the need for anticoagulation, meaning fewer bleeding complications. Pill-in-pocket oral anticoagulation empowers patients by offering a new treatment choice beyond current limited options.

Registry Initiative Across Borders for Atrial Fibrillation in Africa

Atrial fibrillation is a penalizing disease in several ways: morbidity and mortality, health costs. Several multicenter registries have been published. Until now, no multicenter registry involving several countries has been carried out in Africa. The goal of RIBAT AF Africa is to fill this gap, by recruting patients from twelve african centers. All the centers are a third level Atrial Fibrillation managment facility centers. After recruitment , a complete clinical assessment with analysis of comorbidities will be a priority of this registry to try to understand the epidemiological profile of atrial fibrillation in Africa. Then, we will proceed to the temporal classification of atrial fibrillation according to the 2024 ESC recommendations (type and thromboembolic risk in particular.). After this step, the management will be analyzed with three main axes: management of comorbidities, antithrombotic treatment, rhythm and frequency control. Some therapeutic techniques such as ablation of atrial fibrillation were discussed without much detail because many countries do not yet have access to these expensive techniques. A six-month evaluation is necessary to judge above all the applicability of the measures accessible in all countries and in particular anticoagulant treatment. All these data will be recorded anonymously and electronically. Each country can have access to its own data anytime. The statistical analysis will be carried out by a team within the University Hospital of Tangier , as well as all IT logistics. This team will also organize electronic monitoring and underlying all abnomalities in CRF.