View clinical trials related to Alport Syndrome.
Filter by:This is a Phase 1, open-label, multi-center study of the safety, pharmacodynamics, and pharmacokinetics of RG-012 administered to subjects with Alport syndrome.
This international, multi-center, Phase 2/3 trial will study the safety, tolerability, and efficacy of bardoxolone methyl in qualified patients with Alport syndrome. The Phase 2 portion of the trial will be open-label and enroll up to 30 patients. The Phase 3 portion of the trial will be double-blind, randomized, placebo-controlled and will enroll up to 180 patients.
The purpose of the study is to determine if there are certain laboratory tests that can be performed to detect substances or features in a child's urine that can be used to measure the progress of Alport kidney disease and the effects of treatment. These tests and their results could be of use to measure responses to new treatments in future clinical trials.
Over the past 30 years much has been learned about the molecular genetics and natural history of familial forms of hematuria. However, enhanced understanding of these conditions has yet to generate effective therapies for Alport syndrome(AS), the form of familial hematuria associated with end-stage renal disease. Males with AS inevitably develop end-stage kidney failure, with a 50% likelihood of dialysis or kidney transplantation by age 25 years. There is no proven treatment for AS, although studies in animals have suggested several promising potential therapies. Pharmacological or biological treatments that might delay or prevent the development of kidney failure exist, but need to be evaluated through clinical trials. Researchers interested in implementing clinical trials in AS will face several challenges, the foremost of which is the relative rarity of the disease, necessitating aggressive efforts to identify and recruit potential subjects for multi-center collaborative clinical trials. The Alport Syndrome Research Collaborative (ARC) was established in 2009 as a partnership of the Alport Syndrome Treatments and Outcomes Registry (ASTOR), the European Alport Registry and centers of AS research in Canada, China and France with the objective of testing potential treatments to delay or prevent terminal renal failure in people with AS. In this feasibility study the five ARC centers will interrogate existing AS registries and databases, and monitor accrual of new AS cases over an 18-month period, in order to quantify subjects in the disease categories of interest. As part of this project we will examine the utility of urinary uromodulin excretion as a marker of kidney injury and potential trial endpoint in AS clinical trials. Our goals are to (1) demonstrate that participating centers have access to sufficient numbers of males and females with AS to populate adequately-powered clinical trials focused on two clinical targets, microalbuminuria and overt proteinuria, and (2) to test the hypothesis that in males with AS urinary uromodulin excretion decreases as albuminuria and proteinuria increase and that uromodulin offers an independent and insightful measure of renal fibrosis and response to therapy.
The goal of the Microalbuminuria in Untreated Boys with Alport Syndrome study is to gather information about critical clinical time points such as when patients with small amounts of protein (microalbuminuria) in their urine progress to larger amounts (overt proteinuria). Large amounts of protein in the urine is often an early sign of kidney disease. Information needs to be collected in boys who are not taking medications known as angiotensin converting enzyme inhibitor (ACEI) or angiotensin receptor blocker (ARB) in order to obtain accurate data about the length of time between the onset of microalbuminuria and the start of overt proteinuria. This new information will give physicians a better understanding of how to treat patients with Alport syndrome. The information we gather by conducting this study will aid in planning future clinical trials because the identification of time points in disease progression, such as microalbuminuria and overt proteinuria, could reduce the time necessary to show a clinical benefit of a new treatment option. The study has been approved by the University of Minnesota's Institutional Review Board.
Alport syndrome (AS) represents a form of progressive hereditary nephritis in which the genetic defect resides in the synthesis of one of several subunits of type IV collagen, the predominant constituent of basement membranes in renal glomeruli. Renal impairment occurs with time and severe renal failure with hypertension and uremia represent the end stage of the disease, even if a high variability in the rate of progression is described.Males are usually affected by a progressive form of the disease. Affected females with X-linked syndrome usually have a good prognosis with a mild renal impairment. The disease is also associated to a sensor neural deafness which can occur in approximately half of the patient affected and usually correlates with renal impairment. No definite treatment exists in order to delay the time of dialysis or a kidney transplant. Many studies showed that Angiotensin converting enzyme (ACE) inhibitors slow glomerular filtration rate (GFR) decline and limit progression to end stage renal disease (ERDS) and dialysis in several chronic nephropathies associated with proteinuria. The combination of ACE-I with Angiotensin II receptor antagonists may reduce proteinuria more effectively than the two drugs alone. Moreover the addition of statins may synergize the antiproteinuric effects of ACE-I and ATAII antagonists in experimental models of chronic renal diseases. The purpose of this study is to evaluate the effect of a standardized multimodal nephroprotection intervention (Remission Clinic) in Alport patients with renal involvement.