View clinical trials related to Ischemia.
Filter by:This study will collect heart tissue that is routinely removed and discarded during open-heart surgery. The Cardiology Branch of the NHLBI is conducting a variety of laboratory experiments that require a sample of heart tissue. A segment of tissue is routinely cut out of the right atrial appendage of the heart during open-heart surgery to allow the heart-lung bypass machine to be attached to the heart for protection during surgery. This small tissue sample is not re-attached after the bypass machine is removed, but usually destroyed as medical waste.' People between 18 and 80 years of age who are scheduled to undergo coronary artery bypass surgery or aortic valve replacement surgery may be eligible for this study. Participants donate the right atrial appendage of the heart, which would normally be destroyed after their open-heart surgery. The tissue will be used by NHLBI investigators in studies directed at learning how to make the heart less sensitive to damage from a heart attack. The samples may be used, for example, to evaluate the effectiveness of known therapies, refine treatment approaches, identify potential new therapies, or explore opportunities for disease prevention.
Patients who have stents placed in their coronary arteries require treatment with at least two medications to prevent platelets from sticking to the stainless steel stent and forming a blood clot that can result in a heart attack. The 2 anti-platelet medications used for most patients with stents are aspirin and clopidogrel (Plavix). These are usually prescribed for 1-12 months (the length of time depends on the number and types of stents implanted). Although the typical long-term dose of clopidogrel is 75 mg by mouth once daily, a larger dose (known as a loading dose) is usually given at the start of treatment to help the medication take effect more quickly. Prior to January 2006, most patients at the Beth Israel Deaconess Medical Center (BIDMC) who were undergoing PCI and who had not already been taking clopidogrel would receive a loading dose of 300-600 mg of clopidogrel in the cardiac catheterization procedure room immediately after the angioplasty and stenting portion of the procedure. However, several recent studies suggest that administering clopidogrel 600 mg at least two hours prior to an angioplasty procedure can reduce the rate of complications afterwards (especially reducing the chances of detectable damage to the heart muscle). The main purpose of this study is to see whether giving a loading dose of clopidogrel 600 mg to outpatients scheduled to undergo cardiac catheterization with coronary angiography can decrease the risk of procedure-related complications during the 14 days following the cardiac catheterization compared to a strategy of giving clopidogrel 600 mg after the procedure only to those who undergo angioplasty. We will focus our attention particularly on detecting damage to heart muscle following angioplasty (which might be expected to improve with a loading dose of clopidogrel before the procedure) and on bleeding and other groin complications (which might worsen with clopidogrel loading before the procedure). The drug clopidogrel has been approved by the Food and Drug Administration (FDA) for use in patients with a recent or ongoing heart attack, narrowings in major blood vessels outside the heart, or recent stroke with a loading dose of 300 mg followed by 75 mg once daily. It has been used in several large studies with a loading dose of 600 mg without a significant increase in major adverse effects. However, we do not yet know if it is useful or safe when given as a loading dose of 600 mg before cardiac catheterization for outpatients with stable symptoms and who are not thought to be in the midst of a heart attack.
The purpose of this study is to determine whether Hemospan is superior to Voluven for preventing hypotensive episodes during the perioperative period (from induction of spinal anesthesia until 6 hours after skin closure), and for reducing the incidence of operative and postoperative complications including organ dysfunction and failure until follow-up at one month following surgery. An independent Data Safety Monitoring Board (DSMB) will periodically evaluate the safety data collected during this trial.
The purpose of this study is to determine whether Hemospan is superior to Voluven for treatment of hypotensive episodes during the perioperative period (from induction of spinal anesthesia until 6 hours after skin closure), and for reducing the incidence of operative and postoperative complications including organ dysfunction and failure until follow-up at one month following surgery. An independent Data Safety Monitoring Board (DSMB) will periodically evaluate the safety data collected during this trial
The purpose of this pivotal study is to demonstrate safety and effectiveness of the NeuroThera® Laser System (referred to hereafter as NTS) in the treatment of Subjects diagnosed with acute ischemic stroke. The initiation of NTS treatment must be feasible for each Subject within 24 hours of stroke onset.
This study will determine the safety of 500mg of aspirin added to IV TPA at standard doses to prevent re-occlusion of cerebral vessels after successful reperfusion. In ischemic stroke brain arteries are occluded either by an embolus originating in the heart or large vessels leading to the brain or by a process of acute thrombosis of the cerebral arteries over a ruptured atherosclerotic plaque. Rupture of the plaque exposes thrombogenic elements within the plaque and leads to accumulation and activation of platelets and induction of the clotting cascade eventually leading to acute thrombosis and occlusion of the artery. TPA is currently approved by the Food and Drug Administration to treat heart and brain problems caused by blockage of arteries. It activates plasminogen and leads to disintegration of the thrombus/embolus. It is effective only if begun within 3 to 4.5 hours of onset of the stroke because of potential deleterious side effects including life threatening symptomatic intracranial hemorrhage (sICH) when the drug is administered outside of this time window. Reperfusion of the ischemic brain (i.e. timely opening of the occluded artery) with TPA is associated with improved outcome. However, in about 33% of patients that have successfully reperfused after TPA the artery re-occludes within the first few hours resulting in worsening neurological symptoms and worse functional outcome. This re-occlusion is speculated to result from re-thrombosis over an existing ruptured atherosclerotic plaque. This is explained by the relatively short half life of TPA leaving the exposed ruptured plaque intact which leads to re-activation of platelets and clotting factors and re-thrombosis. Thus, we hypothesize that the addition of an antiplatelet agent to TPA would result in lower rates of re-occlusion after AIS. The FDA approved TPA for patients with AIS but discouraged the concomitant use of anti-platelet or anti-thrombotic drugs for the first 24hours after administration of TPA because of concerns that such therapy may result in increased rates of intracerebral hemorrhage. Aspirin is a well known platelet anti-aggregant that works by inhibition of cycloxygenase 1 and reduction in thromboxane A levels. It has a rapid onset of action and additional potential beneficial anti-inflammatory effects in patients with AIS. The international stroke study showed that acute treatment of stroke patients with 500mg of aspirin is safe and feasible and results in better outcome. Furthermore, the drug was safe in these circumstances with an ICH rate of only . Therefore, the purpose of this clinical trial is to examine the safety and efficacy of the combination of aspirin with rt-TPA in patients with AIS.
The purpose of this study is to compare the safety and efficacy of treating individuals with acute ischemic stroke with normobaric oxygen therapy (NBO, given within 9 hours of symptom onset), to standard medical treatment.
The RAVE (Rubeosis Anit-VEgf) trial, utilizes monthly intravitreal Ranibizumab (Lucentis) injections for 9 months to see if total VEGF blockade will prevent neovascular glaucoma and eliminate the need for panretinal photocoagulation in patients with ischemic central retinal vein occlusion.
Cardiovascular disease is the leading cause of death in diabetic patients due to both a high event rate and a worse outcome. A pharmacological intervention that reduces ischemia-reperfusion-injury would improve the outcome of diabetic patients after a cardiovascular event. In the present study, we will use annexinA5 scintigraphy to address the following hypothesis: Rosiglitazone reduces ischemia-reperfusion-injury in humans with insulin resistance.
The hypothesis behind the trial is the concept that Pregabalin is effective in reducing pain at rest in lower limb ischemia, and the study evaluates active treatment or placebo added to the regular pain regimens for these patients.