View clinical trials related to Ischemia.
Filter by:The purpose of this study is to determine whether treatment with 40mg of Rosuvastatin for 8 weeks will reduce the number of episodes of myocardial ischaemia suffered in subjects with coronary artery disease.
Recovery from stroke is a major process and, except for acute intravenous thrombolysis, no treatment able to enhance recovery has yet been validated. Some drugs may have a positive effect when combined with physical rehabilitation. Previous studies have shown a potential effect of catecholaminergic drugs on cerebral plasticity of stroke patients. In 2001, our group has demonstrated in a small group of stroke patients (n=8) that a single dose of fluoxetine (Selective Serotonin Reuptake Inhibitor - SSRI) improved motor performance and modulated cerebral plasticity. We conducted a phase IIb prospective, double-blind, randomized, placebo controlled study to assess the effect of a daily treatment with fluoxetin (20 mg) on motor performance in patients with mild to severe motor deficit after ischemic stroke.
In chronic CLI patients who are appropriate candidates for endovascular procedures - and many patients are not because of their advanced age and disease state - the treatment regimen may include endovascular procedures such as percutaneous transluminal endovascular intervention, as well as reconstructive surgical procedures such as grafts or bypasses. Amputation is a last resort where limb salvage cannot be achieved. Despite the success of percutaneous intervention for small coronary vessels with lumen diameters less than 3 mm, similar techniques have had limited success in the lower extremity vessels. Infra-popliteal, or below the knee endovascular intervention, is commonly plagued by subacute thrombotic closure and restenosis in as many as 50% of treated patients. As a result of the limited success, these percutaneous procedures have been reserved for the severest cases whereby limb loss is imminent without intervention. In this context, the sickest of all patients are enrolled in these trials and poor outcomes are common regardless of the intervention. Agents that promote intracellular cAMP accumulation, including prostacyclin analogues and phosphodiesterase inhibitors, suppress smooth muscle proliferation, promote vasodilatation and inhibit platelet aggregation. These properties suggest that prostacyclin analogues such as treprostinil will be useful adjuncts to peripheral endovascular intervention and perhaps increase the number of patients with CLI that can benefit from peripheral endovascular intervention. An orally available prostacyclin analogue could represent an important treatment advance in the prevention of restenosis following infrapopliteal angioplasty. In the present study, the safety and efficacy of oral UT-15C sustained release (SR) tablets will be compared to placebo in patients with CLI undergoing an infra-popliteal endovascular intervention.
The purpose of this research study is to determine if the infusion of a combination of stem cells obtained from the bone marrow of the same patient will contribute to the formation of new blood vessels in patients with symptomatic severe coronary ischemia. In this trial we will study the safe use of this therapy and its effects on making new blood vessels will be evaluated. Coronary ischemia is intractable angina due to severe coronary artery disease which can seriously decrease blood flow to the heart. CI needs a comprehensive treatment since the condition will not improve on its own. The overall goal of the treatment is to increase blood flow to the heart and improve symptoms of angina. The study hypothesis is based on the concept that the process of formation of new blood vessels is complex and requires the participation of several types of stem cells and growth factors. The lack of any of these components will produce vessels which are immature and unable to provide appropriate blood supply to the heart. Patients eligible to participate in this study are those suffering from severe blockages to the vessels of the heart and are not candidates for percutaneous revascularization or surgical procedures. Once the final mixture of stem cells is prepared, the cells will be intracoronary infused through a catheter into the blocked vessel of the heart. Studies will be performed to evaluate if the intracoronary infusion of stem cells is safe, feasible and works. Patients will be evaluated for 6 months after cell transplant.
Our primary goal is to study temporal trends in the incidence rate, causes, treatment, and outcome of stroke among a large biracial metropolitan population of 1,349,351, of whom 215,611 (15%) are black (2000 Census). Such data are critical for the planning, intervention, and evaluation of public health efforts to decrease the mortality and morbidity due to stroke in the United States. We have completed this goal for 1993-94, 1999, 2005, 2010 and 2015. We are in the process of collecting this data for 2020. In the 2020 study period we will also be ascertaining 3 year recurrence rates for all incident stroke events.
The purpose of this study is to evaluate the safety and tolerability of SA4503 in patients recovering from a recent stroke. Secondary, to evaluate the efficacy of SA4503 compared to placebo.
The purpose of this study is to evaluate the effects of Hemospan infusion on vascular reactivity, regional perfusion and oxygenation of ischemic tissue in patients with chronic critical lower limb ischemia.
Oxygen radicals and inflammation are important causes for brain injury in neonates following perinatal asphyxia. Animal studies demonstrated potential benefits to the brain when using both of vitamin C and ibuprofen. The efficacy of these 2 drugs when combined in protecting the human brain has not been studied. We aimed in this study to test the hypothesis that a combination of anti-oxidants (vitamin C) and anti-inflammatory (ibuprofen) drugs can decrease the brain injury in perinatal asphyxia and improve outcomes when given to infants immediately after birth.
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 hypothesis is that premature infants' can have enough cooling applied to cool their brain to decrease CNS injury without cooling their body.