View clinical trials related to Ischemia.
Filter by:Several randomized trials suggested a cardioprotective beneficial effect (eg reduction in cardiac troponin release) of remote ischemic preconditioning in cardiac surgery. Remote ischemic preconditioning by brief episodes of ischemia and reperfusion in a remote organ or vascular territory provides protection from injury by myocardial ischemia and reperfusion. In the translation of remote ischemic preconditioning from bench to bedside, the first proof of principle and small randomized controlled trials have shown a decreased release of myocardial biomarkers after aortic, congenital cardiac, adult valve and coronary artery by-pass graft surgery. This reduction in cardiac biomarkers release translated into better survival in a recent randomized trial performed in cardiac surgery. No clinical trial on remote ischemic preconditioning in non-cardiac surgery setting has been performed so far. The investigators study wants to test, for the first time, the hypothesis that remote ischaemic preconditioning is effective in reducing cardiac damage in high risk patients undergoing non-cardiac surgery. Remote ischaemic preconditioning will be achieved by inflation of a blood-pressure cuff to 200 mm Hg to the upper arm for 5 minutes, followed by 5 minutes reperfusion while the cuff will be deflated. General anesthesia will be induced and maintained without using propofol in both groups. Cardiac troponin will be used as marker of cardiac damage. If the results of a reduction in postoperative cardiac troponin release and perioperative cardiac ischaemic events will be confirmed in a non-cardiac surgery setting, the investigators could improve a strategy to prevent perioperative cardiac complication easy to apply, safe and low cost.
Anti-anginal drugs relieve ischemia and symptoms by reducing myocardial oxygen demand by reducing heart rate and or contractility (beta-blockers, phenylalkylamine and benzothiazepineate classes of calcium antagonists) or vasodilatation of the venous system (fall in pre-load) and coronary vessels. Late sodium channels remain open for longer in the presence of myocardial ischaemia. Ranolazine, a novel anti-anginal agent, acts by inhibiting the inward late inward sodium current (INaL), reducing intracellular sodium accumulation and consequently intracellular calcium overload via the sodium/calcium exchanger. It is currently thought that this reduction in intracellular calcium reduces diastolic myocardial stiffness and therefore compression of the small coronary vessels. There is considerable animal data to support this theory. There are good theoretical reasons to postulate that patients with chronically occluded vessels may derive less benefit from conventional anti-anginal agents, particularly vasodilators. The ischemic myocardium, subtended by the occluded vessel, will already be subject to significant concentrations of paracrine vasodilators such as adenosine. Ranolazine, therefore, may on the basis of its mechanism of action, provide greater relief of ischemia in such patients than conventional anti-anginal agents.
This is an extension study to evaluate the long-term safety, tolerability, and efficacy of two dose strengths of dalfampridine-ER.
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.
The purpose of this study is to determine whether reducing a patient's body temperature (mild hypothermia of 33 degrees Centigrade) will significantly reduce the risk of brain injury (notably reperfusion injury and hemorrhagic conversion) in patients who have suffered a significant interruption of blood flow to an area of brain (occlusion of large proximal cerebral artery) and have undergone successful removal of that interruption (revascularization).This will be achieved by comparing patients who have undergone hypothermia to those who have not.
The purpose of this study is to learn about protecting the brain from dangerous low blood flow.
The purpose of this study is to measure the concentration of cells and proteins in the patient's blood during administration of Nuopogen (Filgrastim), a medication that is FDA approved for stem cell mobilization, in combination with a programmed pneumatic compression device (PPCD) (Art-Assist Device). The Art-Assist Device is an FDA approved device that promotes blood flow in the patient's legs. A patient will be prescribed this device and this drug to help improve the poor circulation in his/her leg. The use of Nuopogen along with the Art-Assist Device has not been approved by the FDA and is considered experimental. This study is not designed to find out how well the Art-Assist Device works, nor how well the drug works in mobilizing stem cells. Instead, it is a study of how well cells lining blood vessels in calf respond to increases in shear stress, and how well the increase in the population of certain cells in the blood stream effect how the new blood vessels will form. It is important for clinical reasons, and for the purposes of this study, that the patient uses the Art-Assist Device as prescribed on a daily basis as discussed with the patient's doctor
This study evaluates the myocardial protection against perioperative ischemia comparing two standard anesthetic regimes in diabetic patients undergoing elective cardiac surgery. Half of the patients will receive volatile anesthesia while the other half will receive total intravenous anesthesia. Primary and secondary outcome parameters will be assessed after induction of anesthesia, at the end of the procedure and postoperative day 1 to 3.
Confirm central blood pressure reduction effect of Fimasartan, Valsartan and Atenolol and compare correlation with the measured peripheral (central blood pressure, pulse wave velocity, and flow-mediated dilation) and cerebral blood flow factors (transcranial doppler findings, cerebral blood flow volume) in acute ischemic stroke patients with hypertension.
The purpose of the COPPER - B study is to assess the feasibility, safety, and initial efficacy of paclitaxel administration using the OPC for the prevention of restenosis in infrapopliteal de novo and restenotic lesions and occlusions using a novel catheter, the OPC.