View clinical trials related to Ischemic Stroke.
Filter by:This is a 2-part, single-centre, randomised study in healthy males. Part 1 is a double-blind, randomised, placebo-controlled, single ascending dose (SAD) study in healthy males. Part 2 is a double-blind, randomised, placebo-controlled, multiple ascending dose (MAD) study in healthy males.
This study is a multi-center, multi-phase, multi-cohort, prospective, randomized, open, blinded endpoint (PROBE), non-significant risk (NSR) device study including up to 420 evaluable subjects measured with the study device(s) and up to 40 non-evaluable subjects for the training phase.
Large cerebral infarctions are frequent and associated with a poor outcome. Previous cohort studies results suggest that patients with an acute ischemic stroke with large core and substantial penumbra on perfusion imaging benefit from EVT while those with no salvageable ischemic tissue did not. The Investigator aim to demonstrate in a randomized controlled trials (RCT) that EVT (Endo Vascular Treatment) in addition to BMT (Best Medical Treatment) increases the rate of functional recovery (mRS 0-2) at 3 months in patients with a LVO-related AIS with a large core and substantial penumbra evolving for less than 24hrs
A prospective, multicenter, single-arm objective performance criteria trial to investigate the safety and efficacy of SINOMED ADPAT for Recanalization Therapy in acute large-vessel occlusive stroke.
The investigators conduct this study to investigate whether oral administration of Dimethyl Fumarate, a Food and Drug Administration-approved drug for multiple sclerosis, is safe and effective in in alleviating neurologic deficits in patients with Acute Ischemic Stroke.
CRISIS I is a prospective, multicenter, randomized controlled trial, to asses the impact of intensive blood pressure control on clinical outcome of acute ischemic stroke patients with successful recanalization after endovascular therapy.
Randomized clinical trial comparing two monitoring strategies, the use of a 48-hour Holter (routine care branch) and an event recorder for 7 days (intervention branch). Patients admitted for cryptogenic stroke will be included. Enrollment and randomization of patients will be carried out during the index case hospitalization, while follow-up will be done on an outpatient basis until day 7.
The purpose of this study will be to understand the underlying mechanism by which PCSK9 inhibition reduces the rate of ischemic stroke seen in the pivotal studies that led to its FDA approval for ASCVD such as ischemic stroke. Those trials (FOURIER and ODYSSEY) enrolled almost 50,000 patients and showed that PCSK9 inhibition therapy is safe and effective. The investigators hypothesize that PCSK9 inhibition lowers the rate of stroke by reducing atherosclerotic plaque, which would be particularly beneficial for patients with intracranial atherosclerosis, who have the highest rate of recurrent stroke of any stroke mechanism.
CASTRO1 is a study to investigate the reduction of C-reactive protein (CRP) by therapeutic apheresis (CRP-apheresis) in patients after primary treatment of ischemic stroke. The term therapeutic apheresis commonly refers to medical procedures, where pathogenic constituents are being removed from the circulating blood. Elimination is performed by adsorbers outside the body in an extracorporeal circulation. For removal of the pathogenic substances the plasma is separated from the blood (circulation) to pass the adsorber. The purified plasma is merged with the solid blood components thereafter and returned to the patient. The adsorber "PentraSorb® CRP" used for CRP apheresis is CE-certified. It is designated to the selective depletion of C-reactive protein from human blood.
Ischemic strokes account for more than 80% of strokes. Ischemic strokes are caused by the occlusion of an intracranial artery by a thrombus, responsible for tissue ischemia related to a decrease in local cerebral blood flow (CBS). Thus, the management of patients with Ischemic strokes is based on the preservation of an area that maintains sufficient intracranial hemodynamics (IH) and achieves the fastest possible recanalization. The impact of the patient's position (supine or seated position) on the IH in the event of narrowing or occlusion of an artery is poorly assessed but may be of particular importance. In practice, variations in blood flow according to the positioning of the patient's body can be measured using a transcranial Doppler. It is a simple, non-invasive and painless examination that provides the patient's bed with data on the intracerebral hemodynamic profile of patients. This study was implemented because there are no studies known to us that evaluate the effect of verticalization on intracerebral hemodynamics based on the presence of upstream arterial stenosis or occlusion and other multimodal evaluation data in transcranial Doppler.