Clinical Research Directory

Intra-arterial Thrombolysis for Acute Ischemic Stroke With Medium Vessel Occlusion

Acute ischemic stroke (AIS) due to medium vessel occlusion (MeVO) poses a significant clinical challenge. Recent large randomized controlled trials, DISTAL and ESCAPE-MeVO, demonstrated no significant benefit of endovascular therapy in patients with MeVO. Although intra-arterial thrombolysis has shown promise in clinical experience, robust evidence supporting its efficacy in MeVO-related AIS is still absent. To fill this gap, the RESCUE MeVO trial has been designed as a multicenter, prospective, randomized, open-label, blinded end-point (PROBE) study to evaluate the efficacy and safety of intra-arterial thrombolysis in patients with AIS caused by MeVO.

Myocardial Infarction Safe Emergency Medicine Accompanying Study: Providing Reperfusion Therapy Within the Recommended Time Limits

The project is a prospective observational study with the aim of system improvement. It represents accompanying research in connection with the implementation of Safe Emergency Medicine , - an initiative under the auspices of the board of The North Norway Regional Health Authority and The Municipal Health Consortium that aims to provide faster and better treatment to patients with common, serious and time-critical conditions. The focus of the study is the decision-making process and implementation of treatment algorithms for all patients with acute ST-elevation myocardial infarction (STEMI) in the regional health trust's admission area. The data sources are 1) structured telephone interviews with providers and decision-makers and 2) electronic medical records (AMIS, DIPS, prehospital medical records from emergency departments, ambulance medical records). The analyses will form the basis for recommendations for improvements in procedures, training and organization.

Endovascular Treatment Beyond 24 Hours for Acute Ischemic Stroke Caused by Anterior Circulation Large Vessel Stenosis

Endovascular therapy (EVT) is currently recommended as the first-line treatment for patients with acute large vessel occlusion (LVO) in the anterior circulation within 24 hours of symptom onset. However, the therapeutic benefit of EVT beyond 24-hour window remains uncertain due to limited evidence. The EVT-BELATED trial is a multicenter, prospective, randomized, open-label, blinded end-point (PROBE) study designed to assess the safety and efficacy of EVT in patients with acute ischemic stroke (AIS) caused by anterior circulation LVO presenting beyond 24 hours after symptom onset.

COR-INSIGHT: Optimizing Cardiovascular and Cardiopulmonary Outcomes with AI-Driven Multiplexed Indications Using COR ECG Wearable

The COR-INSIGHT trial aims to evaluate the effectiveness of Peerbridge COR advanced ambulatory ECG wearables (COR 1.0 and COR 2.0) in accurately and non-invasively detecting cardiovascular and cardiopulmonary conditions using AI-based software (CardioMIND and CardioQSync). The study devices offer non-invasive, multiplexed, AI-enabled direct-from-ECG detection as a novel alternative to traditional diagnostic methods, including imaging, hemodynamic monitoring systems, catheter-based devices, and biochemical assays. Continuous COR ECG data collected in hospital, outpatient clinic, or home settings will be analyzed to evaluate the predictive accuracy, sensitivity, specificity, and performance of these devices in differentiating between screen-positive and screen-negative subjects. The panel of screened indications encompasses a broad spectrum of clinically relevant cardiovascular, cardiopulmonary, and sleep-related diagnostic parameters, which are critical for advanced patient assessment and management. In the cardiovascular domain, the protocol emphasizes the detection and classification of heart failure, assessment of ejection fraction severity, and identification of myocardial infarction, including pathological Q-waves and STEMI. It further addresses diagnostic markers for arrhythmogenic conditions such as QT interval prolongation, T-wave alternans, and ventricular tachycardia, as well as insights into ischemia, atrial enlargement, ventricular activation time, and heart rate turbulence. Additional parameters, such as heart rate variability, pacing efficacy, electrolyte imbalances, and structural abnormalities, including left ventricular hypertrophy, contribute to comprehensive cardiovascular risk stratification. In the non-invasive cardiopulmonary context, the protocol incorporates metrics like respiratory sinus arrhythmia, cardiac output, stroke volume, and stroke volume variability, providing critical insights into hemodynamic and autonomic function. The inclusion of direct-from-ECG metrics for sleep-related disorders, such as the apnea-hypopnea index, respiratory disturbance index, and oxygen saturation variability, underscores the protocol's utility in addressing the intersection of cardiopulmonary and sleep medicine. This multifaceted approach establishes a robust framework for precision diagnostics and holistic patient management. The COR 1.0 and COR 2.0 wearables provide multi-lead ECG recordings, with COR 2.0 offering extended capabilities for cardiopulmonary metrics and longer battery life (up to 14 days). COR 2.0 supports tri-modal operations: (i) Extended Holter Mode: Outputs Leads II and III, mirroring the functionality of COR 1.0 for broader ECG monitoring applications. (ii) Cardiopulmonary Mode: Adds real-time recording of Lead I, V2, respiratory impedance, and triaxial accelerometer outputs, providing advanced cardiopulmonary insights. (iii) Real-Time Streaming Mode: Streams data directly to mobile devices or computers via Bluetooth Low Energy (BLE), enabling real-time waveform rendering and analysis. The COR 2.0 units are experimental and not yet FDA-cleared. Primary endpoints include sensitivity (true positive rate) \> 80%, specificity (true negative rate) \> 90%, and statistical agreement with reference devices for cardiovascular, cardiopulmonary, and sleep metrics. Secondary endpoints focus on predictive values (PPV and NPV) and overall diagnostic performance. The study employs eight distinct sub-protocols (A through H) to address a variety of cardiovascular, cardiopulmonary, and sleep-related diagnostic goals. These sub-protocols are tailored to specific clinical endpoints, varying in duration (30 minutes to 14 days) and type of data collection. Up to 15,000 participants will be enrolled across multiple sub-protocols. Screening ensures eligibility, and subjects must provide informed consent before participation. Dropouts and non-compliant subjects will be excluded from final analyses.