Active clinical trials for "Ischemic Stroke"

Stroke is the third leading cause of death in the United States, responsible for 158,488 deaths in 1998 (American Heart Association). Nationwide, each year, an estimated 600,000 to 750,000 people suffer a new or recurrent stroke. Cerebral infarction comprises 80% of all strokes and is the result of a complex series of cellular metabolic events that occur rapidly after interruption of blood flow to a region of the brain. The extent of the brain damage is dependent on the duration and severity of the cerebral ischemia. Acute thrombus formation or migration is the principal cause of blood flow interruption in at least 75% of cerebral infarctions. In several animal models of focal cerebral ischemia, restoration of cerebral blood flow within two to six hours after initial occlusion has been associated with smaller volumes of cerebral infarction and improved functional outcome. An effective way of dissolving the thrombus is by administration of recombinant tissue plasminogen activator or Activase (Alteplase, rt-PA), which promotes the proteolytic action of plasmin from plasminogen at the site of a clot. In this study, the drug, Activase, will be administered in subjects with acute ischemic stroke (AIS) intravenously (IV) or by local intra-arterial (IA) injection. The use of the intravenous administration within 3 hours of stroke symptom onset is FDA approved whereas the intra-arterial administration, despite evidence of potential benefit, is not currently FDA approved. Although not FDA approved, this study will evaluate the effectiveness of IA thrombolysis with Activase, used in AIS because of its higher rate of recanalization , potential expansion of the time window out to 6 hours, and lower doses of thrombolytic agent used compared with systemic or intravenous Activase. The study is designed to test the feasibility and provide preliminary safety data regarding the relative benefits and risks of IA Activase as compared to IV Activase when administered per the NINDS rt-PA stroke study protocol, i.e. randomized within 3 hours of onset of symptoms of ischemic stroke then treated within 3 hours in the IV Activase arm and within 4 hours in the IA Activase arm.

The primary purpose of the study is to determine whether carbamylated erythropoietin (CEPO) is a safe treatment for patients who have suffered an acute ischemic stroke.

Hyperglycaemia is a frequent finding in acute ischemic stroke and associated with poor outcome. But the modalities of glucose lowering are still debated. This study will test the efficacy and safety of continuous intravenous insulin protocol versus usual subcutaneous insulin in acute ischemic stroke.

The purpose of this study is to determine if YM872 in combination with t-PA can reduce disability and brain damage from stroke. YM872 or placebo will be given as a continuous intravenous (iv) infusion for 24 hours. It is important that the study medication, YM872 or placebo, is administered prior to the completion of the t-PA administration. The clinical effects of YM872 in addition to t-PA will be determined by assessing neurological function and disability scores at follow up visits through Day 90 of the study.

Based on previous studies comparing Duteplase[a recombinant tissue plasminogen activator (rt-PA) very similar to alteplase] doses, we performed a clinical trial with 0.6mg/kg, which is lower than the internationally approved dosage of 0.9mg/kg, aiming to assess the efficacy and safety of alteplase for the Japanese.

This study aims to construct a registry platform for microcirculatory disorders in a large sample of Chinese patients with cerebral small vessel disease and ischemic stroke; To explore the role of microcirculatory disorders in different types of cerebral small vessel disease and iachemic stroke, as well as their pathogenesis, severity, and prognosis; And to research on the drug treatment of microcirculatory disorders for cerebral small vessel disease and stroke in the real world.

Neurovascular diseases can cause ischaemic or haemorrhagic strokes. While the most common, such as atherosclerosis are widely studied, others are less well known, such as arterial dissections or cerebral angiopathies. What's more, most studies are limited to a few years' follow-up and the longer-term evolution of patients is less well assessed. Patient follow-up data available in routine practice and specific enrollment through the headache emergencies of the Lariboisière neurovascular intensive care unit (USINV) could provide a particularly rich resource.

TESTED will compare the risks and benefits of endovascular thrombectomy (EVT) to medical management (no EVT) in ischemic stroke patients who have a blockage in one of the large blood vessels in the brain and have a moderate-to-severe disability prior to their stroke.

Uncertainty remains regarding the impact of enteric-coated (EC) aspirin as it relates to the reduction of CV risk. We hypothesize that EC formulation based on the previous report may blunt aspirin response as evidenced by reduced Thromboxane A2 (TXA 2) levels in diabetic patients.

Aerobic conditioning is very important after stroke as it may reduce the risk of subsequent stroke and overall mortality. High-intensity interval training (HIIT), in which aerobic training workload is varied between lower and higher intensity bouts within a training session, is known to be effective for maximizing aerobic capacity in healthy individuals and those with cardiac disease. HIIT has not been studied extensively in adults with stroke, but it could be an efficient way to maximize aerobic capacity in this population. Furthermore, using heart rate response to establish training intensity may lead to underestimation of target intensity after stroke because blood pressure medications may blunt the heart rate response. Ventilatory threshold is an alternate method of establishing training intensity and is derived independently of heart rate response. The investigators hypothesized that a 10-week program of treadmill HIIT with intensity based on ventilatory threshold would be feasible in adults at least 6 months post-stroke, and would increase aerobic capacity.