View clinical trials related to Cerebral Infarction.
Filter by:Intravenous (IV) tissue plasminogen activator (tPA) administration has been shown to be safe and effective for treatment of AIS within 3 hours of symptom onset, and newer evidence has shown potential benefit out to 4.5 hours. Mechanical thrombectomy for AIS patients has been shown in clinical trials to be safe up to 8 hours after symptom onset. Recent trials utilizing advanced imaging to identify patients with large vessel occlusions amenable to intra-arterial thrombectomy (IAT) have shown superiority endovascular therapy over medical therapy to result in improved patient functional outcomes. Pilot data utilizing the ADAPT approach has shown superior technical results with similar functional outcomes while lowering procedure time and device costs versus traditional stent retriever as a first line therapy approaches
Autologous human umbilical cord blood (hUCB) stored at Cord Blood Registry will be given to children who have suffered from a Perinatal Arterial Ischemic Stroke. The aim is to determine if hUCB infusion is safe, if late functional outcome is improved, if hUCB treatment improves physiologic response in the child's SSEP & EEG, and the effect of hUCB infusion in altering anatomic findings on MRI.
Controlled study of stereotactic, intracranial injection of SB623 cells in patients with fixed motor deficits from ischemic stroke
Background: Our prior work with combination argatroban + recombinant tissue plasminogen activator (rt-PA) (ARTSS-1: Phase IIa low-dose safety study; n=65 and ARTSS-2: Phase IIb randomized low and high-dose study; n=90), demonstrated safety of the two drugs when delivered concomitantly and recanalization rates were greater than with historical controls. Further, interim analysis of neurological outcomes at 75 patients of the randomized Phase IIb trial, demonstrated a signal of efficacy when compared to control (rt-PA alone) patients. However, rt-PA fails to reperfuse brain in most patients with large thrombi, prompting several recent randomized clinical trials which have demonstrated that intra-arterial therapy (IA) following rt-PA substantially improves outcome in patients with distal carotid or proximal middle cerebral artery occlusions. As a result, rt-PA + IA has become the new standard-of-care for many patients with large arterial occlusions such as those treated in ARTSS-1 and 2. Therefore, this study is necessary to explore the feasibility and safety of adding Argatroban in acute ischemic stroke patients who also receive rt-PA followed by IA. Primary Objective: To demonstrate the feasibility and safety of treating stroke patients with Argatroban who undergo usual thrombolysis care (intravenous rt-PA followed by IA). Secondary Objectives: 1. Assess rates of ultra-early recanalization at commencement of IA; 2. Assess the completeness and pattern of reperfusion as obtained by IA; 3) Assess clinical outcome
Administration of CBG000592 (riboflavin/vitamin B2) in patients with acute ischemic stroke to know if it causes a reduction of glutamate-mediated excitotoxicity.
SELECT is a multicenter, observational prospective study implementing a protocol to acquire imaging and clinical variables known to affect clinical outcomes after endovascular therapy in an effort to evaluate and compare the different selection methods and criteria currently used in practice for acute ischemic stroke patients in the anterior circulation with large vessel occlusion. The study aim is to evaluate prospectively different selection methodologies for endovascular therapy, to compare them against each other to identify which method provides the highest predictive ability in the selection of patients for IAT and to devise a formula that predicts patients' outcomes. This study will enroll patients based on the recent AHA guidelines (July 2015) regarding treatment of patients with acute ischemic strokes and large artery occlusions in the anterior circulation. Our goal is to collect complete imaging, clinical, and 90 day follow up data on 250 endovascular therapy patients as well as up to 250 concurrent medical management patients as a comparison group.
The objective of the study is to determine the safely of Human Umbilical Cord Blood mononuclear cells by Intravenous injection in acute ischemic stroke patients.
The primary objective of the study is to confirm the efficacy of compound Edaravone Injection via intravenous infusion every 12 hours in the patients with Acute Ischemic Stroke(AIS) in a double-blind, active-controlled manner. The study is also to examine the safety of compound Edaravone Injection for the AIS patients.
The purpose of the study is to evaluate the prevalence and extent of right-to-left shunt (RLS) in Chinese migraineurs, and the morbidity of silent cerebral infarction in migraineurs.
Stroke, a personal, familial, and social disaster, is the first cause of acquired disability, the second cause of dementia, and the third cause of death worldwide. Its associated socio-economic costs are astronomic. The burden of stroke is likely to increase, given the aging of the population and the growing incidence of many vascular risk factors. Therefore, apart from further development of stroke prevention and treatment strategies, rational and effective tools for diagnosis, monitoring, and follow-up for stroke patients have potential high long-term clinical and economic consequences. For neuroradiological work-up, computed tomography (CT) or magnetic resonance imaging (MRI) are used as gold standard techniques to detect presence or absence, effective state, and extent of stroke. However, these techniques achieve simply a baseline study of ischemia occurred and can deliver only a snapshot of brain parenchyma and vessels. Furthermore, their rapid and actual availability, especially in primary hospitals, and their dynamic capabilities and predictive values for further infarction are poor with critically ill patients have to be repeatedly transferred to the scanning unit for each measurement. Whereas CT examination is associated with x-ray radiation and may miss early detection of stroke, MRI is associated with higher costs and not generally routinely and around-the clock available in all the hospitals. Therefore, a simple, fast, repeatable, non-hazardous, and non-invasive dynamic bedside tool for the detection of acute brain tissue hypoperfusion and monitoring for potential further infarction or efficacy of thrombolysis either by systemic intravenous thrombolytic therapy with recombinant tissue plasminogen activator (rt-PA) or by selective intraarterial fibrinolysis and mechanical recanalization, both combined with or without bridging after acute ischemic stroke, is strongly needed. A promising alternative method of diagnosing stroke represents contrast-enhanced ultrasound perfusion imaging (UPI). What makes UPI so valuable is the advantage of repeatedly and non-invasively detecting brain tissue at risk for infarction by dynamic direct brain tissue perfusion assessment and not by surrogate parameters, like blood flow velocity or vessel diameter. Because of the possibility to screen and repeatedly measure the state of perfusion, the chances increase to diagnose and monitor ischemic stroke and to define the appropriate window for treatment. The perfusion analysis would also allow determination of treatment results and guidance of rapid and adequate further therapy. Therefore, the present pilot study in 40 patients is initiated. The objectives of this observational diagnostic cohort trial are to evaluate feasibility and practicability of repeated bedside assessments by contrast enhanced UPI in acute ischemic stroke patients and to assess whether UPI can detect alterations in brain tissue perfusion before and after recanalising therapy of strokes. Assessment of cerebral perfusion by CT or MRI serves as reference and its results are compared to UPI data.