Active clinical trials for "Kidney Diseases"

The purpose of this study is to evaluate the impact of vitamin D3 supplementation on the insulin resistance in non-diabetic patients with chronic kidney disease (CKD) stages 3-4, vitamin D deficiency/insufficiency and elevated fasting serum insulin levels.

The purpose of this study is to investigate the effect of severe renal impairment or failure on the single-dose pharmacokinetics of telaprevir (TVR). Pharmacokinetics means how the drug is absorbed into the bloodstream, distributed in the body and eliminated from the body. In addition, the effect of severe renal impairment on the total and unbound plasma concentrations of the sum of TVR and its R-diastereomer VRT-127394 will be assessed. (Diastereomers are substances whose chemical structures are mirror images of each other). Finally, the short-term safety and tolerability of TVR in participants with severe kidney disease will be determined. The results of this study will guide dose recommendations for TVR in subjects with kidney disease.

The purpose of this study is to measure the effect of a reduced calorie diet intervention in new kidney transplant recipients on the outcomes weight gain, oxidative stress, and insulin resistance.

Aims of the multi-center, randomized, treatment-controlled clinical trial are to compare the efficacy of sevelamer hydrochloride to calcium-containing phosphorus binders in reducing the rate of progression of femoral and carotid intimal media thickness (IMT) thickening as measured by B-mode ultrasound in stable maintenance hemodialysis (HD) patients.

The purpose of this study is to investigate whether turmeric is effective in improvement of diabetic nephropathy and in decrease in the amount of proteinuria and cytokine levels.

This study will compare the efficacy and safety of subcutaneous Mircera and subcutaneous darbepoetin in the treatment of renal anemia in participants with chronic kidney disease who are not on dialysis and not receiving erythropoiesis-stimulating agents (ESA). Participants will be randomized to receive either Mircera once every 4 weeks, at a starting dose of 1.2 micrograms/kilogram (mcg/kg), or darbepoetin alfa once weekly, at a starting dose of 0.45 mcg/kg (or once every two weeks, 0.75 mcg/kg). The anticipated time on study treatment is 3-12 months.

The main purpose of the study is find whether the addition of aldosterone antagonist, spironolactone to dual renin-angiotensin-aldosterone system blockade involving angiotensin converting enzyme inhibitor and AT-1 angiotensin II receptor blocker leads to the reduction of proteinuria, main prognostic marker of chronic kidney disease progression.

The purpose of this research study is to examine the effect of a drug called mesna on the removal of homocysteine from blood during dialysis. Homocysteine is an amino acid (protein building block) found in the blood of all people, however it is considerably elevated in dialysis patients. People with increased levels of homocysteine in their blood are at increased risk of developing plaque buildup in their arteries and other related problems such as heart attack and stroke. This study will determine if mesna can improve the rate of homocysteine removal from blood during dialysis.

The purpose of this study is to determine whether or not nocturnal hemodialysis is equivalent to short daily hemodialysis on a per treatment basis, using the NxStage System One in the home setting.

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.