View clinical trials related to Kidney Diseases.
Filter by:To evaluate the clinical safety of different doses of MEDI-507 through day 33.
The purpose of this study is to determine whether oral paricalcitol is safer and more efficacious compared to oral calcitriol in the treatment of hyperparathyroidism in chronic kidney disease patients undergoing dialysis.
This study will evaluate whether earlier intervention with vitamin D in stage II/III chronic kidney disease will prevent or delay secondary hyperparathyroidism. Subjects will receive vitamin D or placebo at study entry and will be followed for a period of one year. The hypothesis is that subjects given vitamin D will have lower PTH and higher 25(OH)D after 1 year compared to placebo. Additionally, there will be less subjects who progress into secondary hyperparathyroidism in the vitamin D treated group compared to the placebo treated group.
This study is designed to describe the physiological response to increased and decreased dietary phosphate intake on various parameters of mineral metabolism in the blood and urine of individuals with Chronic Kidney Disease stage 3 and 4 with normal serum phosphate levels. This detailed study will give us a far greater understanding of the role of diet in abnormal mineral homeostasis early in the progression of this chronic disease. The findings of this study will help both physicians and dietitians better determine the optimal time to introduce dietary therapy in CKD.
The purpose of this study is to determine if one CT contrast agent (medication injected into a vein; used in CT examinations to help produce clearer images) is safer to use than another. This study will compare the safety of two widely-used, U.S. FDA approved contrast agents, Isovue and Omnipaque. The investigators hypothesize that there is no significant difference in the rates of contrast-induced nephrotoxicity (CIN) between these agents when the overall population consists of low-risk patients.
The present study investigates the safety and efficacy of steroid withdrawal at six days post-transplant in pediatric renal recipients under concomitant immunosuppression based on antibodies anti IL2 (interleukin 2), Tacrolimus (TAC) and Mycophenolate Mofetil (MMF). To investigate the impact of this protocol in growth, bone metabolism, insulin- sensitivity and evaluate the expression of IL17 (interleukin 17) and mRNA FOXP3 (messenger ribonucleic acid forkhead box protein 3) as early markers of acute rejection (blood, urine and renal biopsy). Hypothesis:Steroid withdrawal in renal pediatric transplant patients improves growth and bone metabolism without increasing the risk of acute rejection. The expression of FoxP3/IL17 in urine cells could be an early molecular markers of acute rejection.
The process of drug elimination that occurs within the kidneys is complex, and involves filtration, secretion and absorptive mechanisms. Many drugs, metabolites and toxins, including organic anions and cations, rely on renal mechanisms for elimination from the body. Failure to recognize the contribution of renal mechanisms involved in drug elimination during the drug development process can result in drug interactions or toxicity in clinical trials. This is increasingly important due to the use of OAT1 inhibitors such as probenecid that are being used in adjuvant treatment regimens. Thus, in order to more fully understand the effects renal disease, drugs and nephrotoxins on the renal transport pathways of tubular secretion in humans, novel approaches that incorporate both in vitro (experimental) as well as clinical observations (clinical trial), also called in-vitro/in-vivo correlations (IVIVC) need to be developed. These methods can then be used to identify and evaluate specific kidney "probe" drugs that undergo extensive tubular secretion. Such approaches are needed to characterize drug clearance by tubular mechanisms and to identify potentially significant drug-drug interactions prior to exposure to patients in Phase 2 and 3 clinical trials. This investigator-initiated pilot project aims to determine the pharmacokinetics of selected FDA-approved compounds (PAH, iothalamate) for use in IVIVC model development. The proposed research is innovative, because it involves a translational approach to development of an IVIVC model applied to renal drug clearance. It is our expectation that the resultant approach will further our understanding of pharmacogenomics, inter-subject variability and renal drug clearance. This approach will generate important new information regarding in vitro drug-drug interactions in light of many new and potent OAT1 blocking agents being introduced for the treatment of human diseases. In future studies, we hope to fully characterize the effects of diseases such as diabetes, hypertension, and nephropathy on renal drug transport mechanisms using IVIVC models. We expect that results from this NIH-funded study will provide needed preliminary data to design future pharmacogenomic and drug interaction studies in humans.
Cardiovascular related disease is the main cause of death in patients with kidney disease, and "oxidative stress" is thought to be a major contributor by promoting thickening of the heart muscle and stiffening of the arteries. Allopurinol, a drug used safely in the treatment of gout for many years, has been found to dramatically reduce "oxidative stress". It is therefore hoped that it also reduce the thickened heart muscle and stiffened arteries. If it did, it is likely to reduce the appallingly high cardiac death rate in this group of kidney disease patients.
The objective of this study is to evaluate the safety and efficacy of the combination of ABT-335 plus rosuvastatin in dyslipidemic subjects with Chronic Kidney Disease (CKD) Stage 3.
The purpose of this study was to evaluate safety, not inferiority clinical and pharmacodynamic profile of the drug Enoxaparin Sodium produced by laboratory Blausiegel when compared with Clexane product, produced by Laboratory Sanofi-Aventis in 60 patients with Chronic Renal Desease.