View clinical trials related to Ischemia.
Filter by:PAD is caused by an increased flow resistance in atherosclerotic ischemic limbs. The investigators hypothesize that reducing blood viscosity (through controlled phlebotomy), thereby increasing the deformability of red blood cells, should reduce the flow resistance and improve tissue perfusion leading to improved clinical function and a reduction in symptoms. Preliminary data demonstrates that phlebotomy causes a measurable change in blood viscosity as measured by the home-made rheologic method. To evaluate the effectiveness of changes in blood viscosity, obtained through controlled phlebotomy, as a therapy to improve functional status associated with atherosclerotic ischemic limbs in pre-amputation patients.
Phase I study in health volunteers to assess the safety, tolerability and pharmacokinetics of escalating single doses and multiple doses of SP-8203
The aim of the present study is to investigate safety and efficacy of intramyocardial implantation of a novel mesenchymal precursor cell type (iMP) in patients with ischemic cardiomyopathy at the time of coronary artery bypass grafting.
This study is about rehabilitation of arm function after a stroke. The investigators are testing the dosage of therapy that is needed for meaningful recovery of arm and hand function. Dosage of therapy refers to the amount of time (in this case, the total number of hours) that a person participates in treatment. The investigators hope to learn how much therapy time is needed in order for change to occur in arm and hand function after a person has had a stroke. Eligible candidates must have had a stroke affecting the use of an arm or hand at least 6 months ago.
Clinical trial phase I / II, prospective, multicenter, open, randomized, parallel-groups controlled by two levels of dose to assess the safety and feasibility of the infusion of mesenchymal stem cells from adipose tissue administered intra-arterially in nondiabetic patients with chronic ischemia of lower limbs (CLI) and no possibility of revascularization.
Computated tomography (CT) is an invaluable medical resource for both physicians and surgeons. Contrast media are an aid to improve the diagnostic yield of CT. While an incredibly powerful means of imaging the human body, there are possible complications to the use of contrast including a hypersensitive response and contract induced nephropathy (CIN). The latter will typically occur 48-72 hours after administration. One recent meta - analysis of serum creatinine levels following contrast enhanced CT found 6.4% of those undergoing this investigation developed CIN. Although typically transient, 1 % had a persisting reduced renal function, with a small minority needing renal replacement therapy (RRT). The development of CIN was influenced by co morbidities and by the amount of contrast given. The mechanism of injury to the kidney is not definitively established, but is thought most likely due to hypoxia resulting from reduced blood flow, thereby giving rise to oxygen free radicals causing direct damage to the kidney and also direct tubular damage. Remote conditioning ischaemia has been hypothesized to be nephroprotective, whereby induced transient ischaemia at another site could buffer the impact of the contrast medium's effects. This was first demonstrated during cardiac angiograms, with those patients whom received multiple balloon inflations in the coronary arteries were found to have a lower incidence of CIN than those with fewer balloon inflations. Thus it could be hypothesised that any ischaemia temporarily induced could be nephroprotective. This can be at a point of extremity, rather than involving central organs, such as the arm, with ischaemia induced by the use of a blood pressure cuff, inflated to above systolic blood pressure levels. No studies have been found in the literature attempting to demonstrate this effect in relation to contrast CT studies. Consequently, a randomised control clinical trial of patients to assess the effectiveness of remote ischaemic preconditioning is proposed. Study Hypothesis: That performing remote ischaemic preconditioning on those undergoing CTs involving IV contrast is nephroprotective.
In 2012, infants having surgery for congenital heart disease have a high survival. The investigators are now focused on improving how sick these infants become after surgery (short term outcomes) and their later neurodevelopment (long term outcomes). During heart surgery, cardiopulmonary bypass (CPB; the heart-lung machine) takes over heart function while the surgeon repairs the heart disease. During this surgery there are periods of time when the amount of blood going to the heart and brain is lower than usual, called "ischemia". Once the surgery is finished the blood going to the heart and brain is increased to normal again, called "reperfusion". This ischemia-reperfusion can cause injury to the heart, brain, and other organs, affecting the short and long term outcomes in these infants. Adult studies have shown that a short time of ischemia to the legs for 5-10 minutes [the legs are not damaged by a short time of ischemia, unlike the heart or brain], before severe ischemia to another distant vulnerable vital organ [like the heart or brain], can protect this other vital organ from ischemia-reperfusion injury. This is called "remote ischemic preconditioning" (RIPC). Our objective is to test whether RIPC before heart surgery can improve the recovery of the heart and brain after heart surgery in newborn babies with congenital heart disease. The investigators will test whether RIPC will result in lower peak lactate and troponin levels on the day after heart surgery. Lactate levels are a marker for how much the different tissues of the body suffer from ischemia-reperfusion injury. Troponin is released from damaged heart during ischemia-reperfusion. In our trial infants will be randomized to RIPC or control. This means each baby has an equal chance of being in one group or the other. The intervention group will have RIPC before surgery; the "control group" will not. The investigators hope this trial will lead to a larger study to test if RIPC results in fewer days on a breathing machine after surgery, lower mortality, and higher scores on neurodevelopmental tests at 2 years of age.
The purpose of this study is to determine the efficacy of high dose Erythropoietin to improve survival and neurologic outcome in asphyxiated term newborn undergoing cooling.
The purpose of this research study is to compare the effects on kidney function after performing the removal of a kidney tumor with or without clamping the blood vessels during surgery.
The aims of this study are: 1. assessment of ischemia injury of kidney retrieved from standard and expanded criteria deceased donor before transplantation 2. assessment of efficacy of kidney ischemia injury decreasing 3. assessment of influence of kidney ischemia injury decreasing on its function after transplantation For the purpose of this research one hundred kidney will be retrieved from deceased donors (standard and expanded criteria deceased donors) for transplantation. All kidneys before transplantation will be stored in machine perfusion in hypothermia with continuous flow - Organ Recovery Systems LifePort - each single kidney in self-contained perfusion system. For the kidney allograft assessment will be used measurements performed during machine perfusion in hypothermia: renal flow, resistance, lactate dehydrogenase, lactates and ischemia injury markers measured in the fourth hour of perfusion in perfusion fluid. For kidney ischemia injury assessment such markers will be measured: tumour necrosis factor (TNF alfa), interleukin 2 (IL-2), interleukin 6 (IL-6), high sensitivity C-reactive protein (hsCRP), platelet-derived growth factor (PDGF), cystatin C, kidney Injury Molecule (KIM-1), neutrophil Gelatinase-associated Lipocalin (NGAL), complement component C3, caspase 3. Every time from pair of retrieved kidneys each kidney will be randomise for one of the group: - group 1) - 50 kidneys - examined group - "cured" with etanercept (ENBREL) in the first hour of perfusion by adding drug to perfusion fluid, - group 2) - 50 kidneys - control group - without intervention. Ischemia injury markers will be measured in perfusion fluid by kidney two times (in the first and fourth hour of perfusion) for assessment of efficacy kidney ischemia injury decreasing. Results of measurements of kidney ischemia injury before transplantation, parameters during machine perfusion in hypothermia and donor parameters will be correlated with kidney allograft function post transplantation. Immediate, delayed and slow graft function, primary non-function, kidney function assessed by creatinine concentration and creatinine clearance at one day, seven days, two weeks, 1, 6 and 12 months post transplantation and kidney graft survival 6 and 12 months post transplantation will be analysed.