View clinical trials related to Diabetic Kidney Disease.
Filter by:Diabetic kidney disease (DKD) is a common complication of diabetes, and is now the most common form of chronic kidney disease. DKD is the leading cause of kidney disease requiring dialysis or kidney transplantation, and its global incidence and prevalence have reached epidemic levels. While the risk of developing DKD can be ameliorated by tight blood glucose and blood pressure control, it is not fully preventable and once established DKD cannot be cured. Therefore many patients are left with poor and worsening health and with increased mortality risk. Developing new ways to treat DKD requires healthcare professionals to be able to identify those patients most in need of treatment. One promising approach for identifying patients that are at risk is the use of imaging measurements (called "biomarkers") derived from Magnetic Resonance Imaging (MRI) and Ultrasound (US) of the kidneys. Evidence from early studies shows that such imaging biomarkers can identify underlying problems in DKD such as blood supply, oxygen supply, kidney scarring and kidney function, in ways that are better than those currently available. The investigators think that imaging biomarkers will improve the identification of patients who are likely to decline from DKD in the short term. The changes found by imaging may even happen before effects on the blood and urine. The investigators plan to test this hypothesis by performing a study observing 500 patients with early stage DKD, recruited in 5 sites across Europe. All patients will have detailed assessment at the start of their involvement, including clinical assessment, blood and urine samples, and MRI and US scans. The investigators will look at whether imaging biomarkers are associated with other measures that predict progression in DKD, and follow patients every year for 3 years (4 years total study participation) to see if the imaging biomarkers predict worsening DKD.
Pentoxifylline (PTX) is a medication that has been on the market since 1984 for use in disease in the blood vessels of the legs. There is some preliminary information that it may protect the kidneys from damage due to diabetes and other diseases. "Pentoxifylline in Diabetic Kidney Disease" is a study to bee conducted in 40 VA hospitals across the nation to determine definitively whether or not PTX can prevent worsening of kidney disease and delay death in patients with diabetic kidney disease.
This add-on open-label randomised controlled pragmatic trial aims to: 1. evaluate the effect of add-on astragalus treatment on type 2 diabetic patients with stage 2 to 3 chronic kidney disease and macroalbuminuria. 2. estimate treatment effect, variance, recruitment rate, attrition rate and change in clinical manifestation including Chinese medicine syndrome for parameters optimisation and feasibility assessment for a subsequent phase III randomised controlled trial. 3. assess response predictors for efficacy and safety among type 2 diabetic patients with stage 2 to 3 chronic kidney disease and macroalbuminuria receiving add-on astragalus treatment
Type 2 diabetes is a chronic condition whose prevalence is increasing globally. Kidney disease is a key complication of diabetes and is among the most common cause of end-stage renal disease, requiring renal replacement therapy. It has been shown that the trajectory of renal function (estimated glomerular filtration rate - eGFR) is of great prognostic value for renal and cardiovascular endpoints in diabetic patients. However the clinical use of this prognostic marker is not associated to date with a clear therapeutic intervention, effective in patients with type 2 diabetes identified with this biomarker. In France, type 2 diabetes patients have twice less physical activity than non-diabetic persons. Recently, it has been published that physical activity was associated with an improvement of renal risk in patients with type 2 diabetes, recruited from the LOOK-AHEAD study. It was demonstrated that high-intensity physical activity (HIPA) can have several additional advantages over moderate-intensity, on blood pressure improvement, and cardiovascular risk profile modification. In addition, this procedure was shown to be safe in patients with high cardiovascular risk. We plan to perform a randomized intervention comparing a structured program of high-intensity physical activity (HIPA) vs standard recommendations for physical activity on renal function decline (primary outcome) and mortality, renal and cardiovascular endpoints, patients' safety and quality of life (secondary outcomes). Study participants will be patients with established type 2 diabetes and a high renal risk, identified by rapid renal function decline, defined as a eGFR slope below -5ml/min per 1.73 m2/yr. The intervention is planned to last for 2 years.
1. Name of Investigational Products Huangkui capsule. 2. Trial Topic A Randomized, Double-blinded, Parallel, controlled, Multicenter Clinical Trial of Huangkui Capsule in Treating Type II Diabetic Nephropathy (DKD) 3. Trial Objectives Primary objective:To evaluate HuangKui capsule efficacy for treatment of type II diabetes ACR. Secondary objective: To evaluate the efficacy of HuangKui capsule on 24-hour urinary protein changes、reduce PCR-increase eGFR, improve micro-inflammatory state, and improving Traditional Chinese medicine clinical efficacy 4. Trial Design Designed as a block randomized, double-blinded, parallel controlled, multi-center clinical trial.
The Family Investigation of Nephropathy and Diabetes (FIND) is a multicenter study designed to identify genetic determinants of diabetic kidney disease. FIND will be conducted in eleven centers and in many ethnic groups throughout the United States. Two different strategies will be used to localize genes predisposing to kidney disease: a family-based genetic linkage study and a case-control study that utilizes admixture linkage disequilibrium. The center based at the Phoenix office of the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK-Phoenix) will conduct family-based linkage studies among American Indian populations in the southwestern United States. Participants (index cases) with diabetes and kidney disease will initially be recruited, and their parents and siblings will also be invited to participate. Genetic material from these participants will be used to genotype markers throughout the genome. Linkage analysis will be conducted to identify particular chromosomal regions containing genes that influence susceptibility to diabetic kidney disease. Linkage analyses will also be used to identify genes influencing traits related to diabetic kidney disease, such as serum creatinine, urinary protein excretion, plasma glucose levels, blood pressure and blood lipid levels. Regions that show evidence for linkage will then be examined in more detail, with both genetic linkage and association studies, to attempt to identify the specific genes that influence diabetic kidney disease, or related traits. The identification of genes that influence susceptibility to diabetic kidney disease will lead to a better understanding of how kidney disease develops. In the long run, this may lead to improved treatment and prevention of diabetic kidney disease.