View clinical trials related to Kidney Failure, Chronic.
Filter by:The advent of new, potent immunosuppressive (anti-rejection) drugs over the past ten years has substantially reduced the risk of rejection after kidney transplantation, has allowed the development of immuno-suppressive regimens that do not use long-term steroids (steroid avoidance), and has improved transplant success rates both in the short and medium term. The main new agents used in these modern regimens are the calcineurin inhibitor (CNI) tacrolimus; the anti-proliferative agent mycophenolate; and induction agents which are used to provide effective early suppression of the rejection process; these include monoclonal antibodies (MoAb) such as IL-2 receptor blocking antibodies (IL-2R MoAb: basiliximab and daclizumab) and the anti-CD52 antibody Campath-1H (alemtuzumab). Although almost all modern immunosuppressive regimens involve one or more of these agents, it is not known which is the safest and most effective combination. This randomised controlled trial compares two steroid sparing regimens which have been used with very good short and medium term results at St Mary's Hospital Renal and Transplant Unit over the last 5 years. The primary hypothesis is that the alemtuzumab/tacrolimus regimen is as effective and safe as the IL-2R MoAb/tacrolimus/mycophenolate regimen.
To compare renal function (51Cr-EDTA clearance) 48 hours post open-heart surgery (coronary bypass or valve surgery) in patients with impaired renal function after randomization to either nifedipine infusion at start of surgery and the following 24 hours or placebo (0.9% saline infusion). Study hypothesis is that nifedipine has a prophylactic effect on decline in renal function.
The purpose of this study is to evaluate the safety of alemtuzumab after kidney transplantation as part of a multitherapy regimen to prevent kidney graft loss and death and to avoid steroids and chronic use of calcineurin inhibitors in pediatric renal transplant recipients 1 to 20 years of age.
Dialysis patients suffer from many problems with blood vessels and this is even more so for patients with the added complication of diabetes. Diabetics have a number of reasons for vascular disease and one of the new areas of research is looking at the cells that line the blood vessels, called endothelial cells. It is thought that the number of red blood cells in the blood (haemoglobin concentration) affects the function of these cells. There is very little information available on what haemoglobin level is best for dialysis patients. As diabetics account for almost 40% of dialysis patients worldwide it is important to understand the effect different haemoglobin levels will have on the blood vessels. Hypothesis: Endothelial cell function and the related expansile capacity of blood vessels are affected by different haemoglobin concentrations [Hb] in dialysis patients.
This study explores the safety and efficacy of intravenous iron therapy in anemic hemodialysis patients treated with epoetin alfa, who have higher serum ferritin levels, but low to normal transferrin saturation.
This study compares the effect of Ferrlecit® (a form of intravenous iron) to ferrous sulfate (a form of oral iron) in treating anemia and iron deficiency in chronic kidney disease patients who are not receiving erythropoietic agents (hormones that stimulate the bone marrow to make more red blood cells).
This study compares the effect of Ferrlecit® (a form of intravenous iron) to ferrous sulfate (a form of oral iron) in treating anemia and iron deficiency in chronic kidney disease patients who are receiving erythropoietic agents, such as Procrit® and Aranesp®.
The purpose of the study is to show the efficacy of reduction of cyclosporine A exposure measured by the area under the curve by Bayesian estimator on the primary prevention of degradation of the renal function in renal transplant recipients
This is a study to determine the safety and effectiveness of Darbepoetin (Aranesp) given every 14 to 28 days to treat low red blood cells in children with chronic kidney failure.
Treatment with growth hormone (GH; a hormone made by the body that stimulates growth) has been shown to be helpful in treating children with chronic kidney disease who fail to grow. The amount of growth that is seen in children treated with growth hormone varies widely for unknown reasons. Growth hormone works by producing another hormone in the liver called insulin-like growth factor-1, or IGF-1 for short. IGF-1 stimulates the bones to grow. The amount of IGF-1 in the blood may directly affect the amount of growth in each child. At this time, growth hormone therapy in children depends on giving a certain dose of growth hormone for each child based on his or her weight. If after 3-6 months on this dose of growth hormone the change in height is not enough, then the dose of growth hormone is increased until enough growth is seen. This method of dosing of growth hormone may take a long time and is complicated and time-consuming. The purpose of this study is to measure the amount of IGF-1 produced by the body as a result of giving 2 different doses of growth hormone in children for 7 days only. The study investigator hopes to find the most favorable level of IGF-1 generated after 7 days of growth hormone that correlates with good growth of children with kidney disease. Then instead of dosing growth hormone by weight, like is done now, researchers can dose growth hormone by the amount of IGF-1 that the body produces. Being able to dose more effectively will save valuable time for the child to grow and will shorten the overall duration of growth hormone therapy. The investigators will also determine the effect of inflammatory cytokines Il-6 and TNF-alpha on growth hormone insensitivity and hence IGF-1 generation test in the same population.