Active clinical trials for "Ischemic Stroke"

No cause for stroke is found in up to 30% of cases despite extensive investigations. These are called cryptogenic strokes (CS). 1 in 4 stroke survivors will suffer another in 5 years and this is a leading cause of fear and anxiety. A common reason for CS is an undetected heart rhythm disorder called atrial fibrillation (AF). AF occurs intermittently, so it may not be detected during the mandated 24-96 hours of rhythm monitoring that is performed as part of the standard post-stroke investigation strategy. A randomised controlled study in 2014 showed that whereas this standard monitoring strategy picks up AF in 2% of CS patients, longer-term, continuous monitoring for 12 months can pick up AF in 13% of patients. This suggests the standard strategy may miss AF in a proportion of CS patients and thus also the opportunity to mitigate against further strokes with anticoagulation therapy. Prolonged monitoring has traditionally required a minimally-invasive surgical procedure to implant a recording device under the skin at a specialist centre. A specifically trained team is also required to interpret the large number of recordings this strategy yields. The Apple Watch (AW) is a wristwatch able to monitor a wearer's heart rate and rhythm regularity and facilitates real- time, single-lead ECG recordings. This over-the-counter, non-invasive device has demonstrated feasibility and has a Certification (CE) Mark for detecting AF. It may offer a potential non-invasive alternative long-term rhythm surveillance strategy to diagnose AF in these patients. The investigators propose a study in which CS patients will be randomised in a 1:1 ratio to receive additional AW monitoring on top of standard care versus standard care alone. The investigators shall then explore the incidence of AF in the two groups at 1 year and how it impacts clinical outcomes too.

Prospective observational multi-center intervention study. The study aims to evaluate whether an artificial intelligence (AI) support tool for radiological image processing (StrokeSens, Circle NVI) can accelerate decision making and increase detection rate in patients with an acute ischemic stroke caused by intracranial large vessel occlusion (LVO) or medium vessel occlusion (MeVO) in Northern Norway. Relevant outcomes will be compared between centres with and without available software during the study period.

The present trial is addressing the question if a biologically distinct subgroup of ischemic stroke patients without known atrial fibrillation at admission, selected by a cut-off level of MRproANP concentration, which represents a underlying increased risk of cardiac thrombogenicity, benefits from direct oral anticoagulation (DOAC) within 7 days of symptom onset versus standard of care (antiplatelet) as preventive treatment.

The investigators are suggtesting that lower goals of systolic blood pressure after intravenous thrombolysis may reduce the risk of hemorrhagic complications and improve functional outcomes after acute ischemic stroke.

Demonstrating the pathophysiological link between Left Atrial (LA) and Left Atrial Appendage (LAA) pathology and embolic strokes in non-Atrial Fibrillation (AF) individuals represents a major advance in stroke prevention strategies. Instead of relying on non-specific criteria for stroke risk assessment, the investigators propose to identify individuals with high-risk of embolic stroke using imaging criteria that reflect the underlying pathophysiology of embolic stroke of cardiac origin. the investigators can therefore lay the groundwork for future anticoagulation strategies for stroke prevention beyond AF.

This is a pilot, monocentric clinical investigation to evaluate the suitability of StrokeWave in distinguishing haemorragic from ischaemic strokes. The StrokeWave is a microwave device which employs a novel technique to generate images by processing very low power (<1mW) microwaves. The trial design has been developed in order not to interfere with thw standard diagnostic approach used for the hyperacute stroke patients, nor to modify the usual standard timing of the routine assessment.

This study aims to evaluate the hypothesis that thrombectomy devices plus medical management leads to superior clinical outcomes in acute ischemic stroke patients at 90 days as compared to medical management alone in appropriately selected subjects with the Target Mismatch Profile and an MCA (M1 and M2 segment) or ICA occlusion or BA who have endovascular thrombectomy initiated between 6-24 hours after last seen well.

This trial aims to test that intra-arterial injection of autologous bone marrow mononuclear cells in acute ischemic stroke patients is safe and improves neurological outcomes.

The study is a prospective, multi-center, single arm, feasibility study that will enroll a maximum of 36 subjects. The maximum enrollment is 10 subjects per site. A maximum of 6 investigational centers in Europe will participate. Enrollment is expected to take about 9 months, subject participation will last about 3 months.

Cerebral infarction by proximal occlusion of the anterior circulation is common with major personal and societal consequences. MRI is the gold standard for exploring stroke, especially ischemic, and a number of biomarkers on initial MRI (before reperfusion) are predictive of neurological prognosis. However, their spatiotemporal evolution in the suites of reperfusion is unclear. Close monitoring by MRI would make it possible to precisely know the tissue, vascular and microvascular evolution of the infarct area and the penumbra after reperfusion, and thus to characterize MRI biomarkers associated with efficient tissue reperfusion. The aim of the MR-Reperfusion study is to characterize new MRI biomarkers of efficient tissue reperfusion.