Active clinical trials for "Ischemic Stroke"

Stroke is one of the most important diseases endangering the health and quality of life of Chinese people. Acute ischemic stroke (AIS) is commonly caused by cerebrovascular stenosis or occlusion. The most effective treatment for AIS is timely and successful angiographic reperfusion. Due to the large diameter and obvious positioning of bilateral femoral arteries, the transfemoral artery (TFA) using Seldinger's technique has been the most commonly used approach for endovascular treatment. However, recent studies have suggested that the radial artery is an ideal puncture site for cerebrovascular intervention. Small sample studies have confirmed that endovascular recanalization for acute anterior circulation large vessel occlusion via TRA has been safe and effective. Still, there are some complex approaches needed to be converted to TFA. There has been no difference in total operation duration and fluoroscopy time between TRA and TFA, but the TRA group had higher radiation dose and shorter hospital stays than the TFA group. In addition, TRA tends to be more convenient than TFA, especially for posterior circulation lesions. However, the current studies are based on a single center with a small sample size, and there has been still a lack of large-sample randomized controlled experiments to verify the safety and effectiveness of posterior endovascular recanalization via TRA.

The CHOICE study suggested that the use of adjunct intra-arterial alteplase after successful endovascular reperfusion in large vessel occlusion acute ischemic strokes may result in a greater likelihood of excellent neurological outcome at 90 days. However, CHOICE was a phase-2 trial and almost exclusively enrolled anterior circulation occlusions. Therefore, data on the safety and efficacy of post-endovascular reperfusion IAT in posterior circulation stroke is lacking. In general, anterior circulation strokes are associated with a higher risk of ICH than posterior circulation strokes. Therefore, we believe it might be safer to perform post-endovascular reperfusion IAT posterior circulation stroke. Also, there are more perforator artery in the posterior circulation, IAT would be more likely to show its benefit. Therefore, we would like to explore IA rt-PA for posterior circulation stroke after successful MT in our RCT.

Ischemic post-conditioning is a neuroprotective strategy attenuating reperfusion injury in animal stroke models. The investigators have conducted a 3 + 3 dose-escalation trial to demonstrate the safety and tolerability of ischemic post-conditioning incrementally for a longer duration of up to 5 min × 4 cycles in stroke patients undergoing mechanical thrombectomy. This study aims to assess the infarct volume after ischemic post-conditioning in patients with acute ischemic stroke who are treated with mechanical thrombectomy.

High-intensity statins are recommended for secondary prevention of stroke in patients with atherosclerotic ischemic stroke. According to the guidelines of the American Heart Association and the American Stroke Society, high-intensity or high-dose statins are recommended for high-risk groups of atherosclerotic cardiovascular disease (ASCVD). Statin therapy is recommended even if it is less than 100 mg/dL. The 2016 ESC/EAS and 2017 AACE guidelines include ischemic stroke and transient cerebral ischemic attacks caused by atherosclerosis in ASCVD, classifying them as ultra-high-risk groups, and recommending LDL cholesterol of less than 70 mg/dL as a treatment goal. The recently published guidelines for dyslipidemia in Korea also recommend that the target level of LDL cholesterol in patients with atherosclerotic ischemic stroke and transient ischemic attack be reduced to less than 70 mg/dL or 50% or more from the baseline. According to a previous study on the efficacy and safety of high-intensity rosuvastatin in patients with ischemic stroke, it is not clear whether the use of rosuvastatin 20 mg prevents recurrence of cerebral infarction in the acute stage, but it is safe and effective for hemorrhagic conversion of cerebral infarction. In addition, the results were shown when rosuvastatin and ezetimibe were combined in patients with high cardiovascular risk, LDL cholesterol and total cholesterol decreased more in the combined group than in the single agent group. In a study comparing the group whose LDL cholesterol target was reduced to 70 mg/dL or less after stroke and the group maintained at 90-110 mg/dL, the group whose LDL cholesterol was controlled to 70 mg/dL or less It was confirmed that the incidence of cardiovascular disease was reduced. Existing studies aimed at general high-risk groups, not specific disease groups, and as in this study, studies were not conducted on a single disease group called acute stroke. In addition, there are only limited studies on the effectiveness and safety of diseases that occur mainly in the elderly, such as acute stroke. Therefore, there are currently no studies on the clinical efficacy and safety of high-intensity rosuvastatin and ezetimibe combination therapy for patients with acute cerebral infarction.

This study is to evaluated the safety and efficacy of BMSCs transplantation in the treatment of ischemic stroke, so as to provide a basis for future clinical application of BMSCs transplantation in the treatment of ischemic stroke.

Stroke is a leading cause of physical and cognitive disabilities. The most common type of stroke is ischemic (lack of blood flow to the brain due to clot blocking a blood vessel). Many people with stroke (PwS) have changes on the brain imaging called small vessel disease (SVD). This is a condition that affects tiny blood vessels supplying the brain, leading to decreased blood flow in some parts of the brain. These brain changes may hamper the recovery process after stroke, or lead to recurrent stroke and cognitive impairment. SVD is a slow process that can be seen as multiple black spots on computed tomography or white spots on magnetic resonance imaging. Current treatments to reduce the effect of SVD on PwS are to control high blood pressure, high blood sugar, high cholesterol and increase physical activity. However, these approaches do not lead to a reduction in SVD. Remote Ischemic Conditioning is a type of treatment delivered with help of a regular blood pressure machine. This does not involve any drug. A typical treatment involves the application of a blood pressure cuff followed by brief sessions of compressions and relaxation on the arm muscles much akin to blood pressure measurement but for 5 min. It leads to a transient safe state of less blood flow in arm muscles which initiates the release of molecules and signals transmitted by blood. These signals may then go on to improve blood flow in the brain. Recent animal and human studies have suggested that the use of RIC may reduce the SVD load. A new device will be used to deliver remote ischemic conditioning therapy in a better manner. Existing devices generate the same amount of compression for all people. The pressure applied by the machine in the arm may be either more than required or less than required. The ideal compression would be one that achieves a low blood flow state in the arm at the least possible pressure. To achieve this our group is using a small light sensor to inform us. The light sensor is closely applied to the skin over the arm below the blood pressure cuff. It emits light that is absorbed by the skin and the light is then reflected. This is detected by other sensors placed together. From the reflected light the sensor can obtain information about blood flow in the skin. When the pressure increases with help of an automated machine the light sensor can detect that blood flow are reduced and this information is displayed on the computer. The information about skin blood flow will inform about the level of pressure to apply to give accurate treatment. The new device with optical feedback will deliver RIC in PwS and SVD in a safe and reliable manner. A total of 51 patients will take part in this study. Thirty-four will get remote ischemic conditioning therapy and 17 patients will get sham-control therapy. All patients will get standard post-stroke treatment according to the Canadian Stroke Best Practices Recommendation.

The objective of this study is to demonstrate the safety and efficacy of the Penumbra System including Thunderbolt Aspiration Tubing (Thunderbolt) in a population presenting with acute ischemic stroke (AIS) secondary to intracranial large vessel occlusion (LVO) who are eligible for mechanical thrombectomy.

A phase III, randomized, multi-center clinical trial that will examine whether treatment with intravenous TNK is superior to placebo in patients who suffer a non-large vessel occlusion ischemic stroke within 4.5-12 hours from time last seen well. The randomization employs a 1:1 ratio of intravenous thrombolysis with Tenecteplase (TNK) versus placebo in patients who suffer a non-large vessel occlusion ischemic stroke between 4.5 and 12 hours from time last seen well (TLSW) and with a clinical-radiological mismatch or evidence of salvageable brain tissue on perfusion imaging.

Determine the effects of sphenopalatine ganglion (SPG) block in post-stroke headache.

About 30% of ischemic strokes are cryptogenic. Patent Foramen Ovale (PFO) is present in about 25% of the general population. In cryptogenic strokes, PFO has been shown to be overrepresented and recent intervention studies have confirmed that PFO has a causal link with stroke. In patients with recent cryptogenic stroke, these randomized studies have shown at least 50%-reduction of recurrent neurological events after PFO percutaneous closure compared with medical therapy alone. At the The risk of AF reported in these studies in certainly largely underestimated as only symptomatic and recorded episodes of AF have been declared. Patients often report palpitations without a dia gnosis of AF made on the ECG or a Holter. Long term ECG monitoring provides more accurate data on AF incidence. Administration of flecainide has been shown to be effective in preventing Atrial arrhythmia and may be useful in preventing these Atrial arrhythmia(AA) episodes after PFO closure. To the knowledge of the investigators, there is no study assessing the efficacy of any antiarrhythmic drug in the prevention of AFafter PFO closure. AFLOAT will be the first randomized study to possibly validate flecainide to prevent Atrial arrhythmia in these patients.