Active clinical trials for "Diabetic Nephropathies"

Diabetic kidney disease increases the risk of illness and death from heart disease in patients with Type 2 diabetes. Some blood pressure medications called ACE inhibitors and ARBs slow progression of kidney disease, but the dose that can be used is often limited by side effects that are experienced by patients. The most limiting side effects of the current treatments are lowering of the kidney function or blood pressure, and a rise in blood potassium levels. A safe and inexpensive medication that doesn't lower kidney function or blood pressure or raise serum potassium would be useful. Minocycline is a tetracycline antibiotic with recently appreciated protective properties. In a published journal article by Dr. Isermann, minocycline prevented the death of specialized kidney cells in mice. The kidneys of these mice did not develop diabetic kidney disease when seen under the microscope and the mice experienced only a little bit of protein loss in the urine. In a different published paper, the authors showed that minocycline also decreased kidney injury in a model of non-diabetic kidney disease. A related tetracycline antibiotic was shown to lower urine protein in diabetic patients. These data support a rationale for testing to see if minocycline is safe and helpful in patients with diabetic kidney disease. In this study, all patients will stay on their usual medications for the treatment of diabetic kidney disease. Patients will be given either minocycline (100 mg by mouth twice a day for 24 weeks) or placebo (an inactive capsule taken twice a day for 24 weeks). Minocycline or placebo will be assigned by a process called "randomization", which is like a coin toss. Neither the patient nor the study team will know if the patient is taking placebo or minocycline until the end of the study. The study will assess minocycline safety and test to see if minocycline is helpful or not helpful for the treatment of diabetic kidney disease. This study was funded by the American Diabetes Association and is not supported by any pharmaceutical company.

The primary objective of this study was： in patients with type 2 diabetes and microalbuminuria who have been receiving stable treatment of angiotensin-converting enzyme inhibitor/angiotensin II receptor blocker (ACEI/ARB) for at least 3 months, whether low-dose colchicine slows the progression of microvascular complications. The secondary objective of this study was： (1) whether low-dose colchicine could reduce Urinary Albumin To Creatinine Ratio (UACR), or improve eGFR in patients with type 2 diabetes and microalbuminuria; (2) whether low-dose colchicine decreases carotid intima-media thickness(IMT) in patients with type 2 diabetes and microalbuminuria; (3) whether low-dose colchicine reduces the risk of cardiovascular events or mortality in patients with type 2 diabetes and microalbuminuria.

Current medical therapies are not able to prevent progression of established macroproteinuira (i.e. diabetic nephropathy) to end-stage renal failure in type 1 (insulin dependent) diabetic patients. In this setting, proteinuria is a major risk factor for mortality. Pancreas transplantation, on the contrary, can revert diabetic nephropathy and thereby prevent end-stage chronic renal failure, with theoretically lower risk of death as compared to current medical therapies.The main objective of this study is to assess superiority of isolated pancreas transplantation versus intensive exogenous insulin therapy in type 1 diabetic patients with overt diabetic nephropathy and mildly reduced renal function. The primary endpoint is a composite efficacy/failure end-point including: patient mortality and renal function impairment during 5 years in patients with badly controlled diabetes and nephropathy resisting to up-to-date nephroprotective therapies.Main secondary objectives are safety and efficacy of both regimens, including proteinuria and renal histology evaluation, metabolic control and quality of life, acute and chronic extrarenal complications of diabetes, pancreas survival and all risks related to the transplant procedure (anaesthesia, surgery and immunosuppression side-effects) and to the intensive insulin therapy management.

The purpose of this study is to investigate whether the oral anti-diabetic drug, Thiazolidine (TZD) is effective in suppression of onset or progressin of diabetic nephropathy in Japanese type 2 diabetic patients.

This add-on open-label randomised controlled pragmatic trial aims to: evaluate the effect of add-on astragalus treatment on type 2 diabetic patients with stage 2 to 3 chronic kidney disease and macroalbuminuria. 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. 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

The purpose of this study is to investigate the therapeutic effect and safety of Jinshuibao Capsule on diabetic kidney disease in T2DM patients.

Diabetic kidney disease (nephropathy) develops in nearly 40% of patients with type 2 diabetes mellitus. Diabetic nephropathy is caused by damage to the small blood vessels in the kidneys due to uncontrolled blood sugar levels, which mean that the kidneys become less effective at filtering urine. This is associated with albuminuria (protein in the urine). Treatment with some drugs reduces the loss of albumin through the urine and delays disease progression. There is increasing evidence that vitamin D could also be important in management of diabetic kidney disease. The aim of this study is to investigate the efficacy and safety of a combined regimen of calcitriol (active vitamin D) and established drugs for diabetic kidney disease.

Thiamine is a key component in the creation of physiologic anti-inflammatory mediators. Serum thiamine stores have been found to be deficient in diabetic patients. Thiamine deficiency may be a key pathological mechanism of inflammation that results in diabetic kidney and retinal injury. The investigators hypothesize that the repletion of a patient's thiamine by oral supplementation may result in reduced inflammation, and therefore reduced kidney injury.

Diabetic nephropathy, the leading cause of end-stage renal disease in many countries, is characterized by high cardiovascular mortality and morbidity even in the early course of the disease. In addition, cardiovascular complication has been the most common cause of death in these patients. Thus, early detection and appropriate intervention for this highly common and critical complication is considered to play an important role in the management of the disease. In this regard, much interest has been focused on the early markers which can predict arterial diseases before the clinically apparent cardiovascular diseases. Recently, glowing evidence suggests that arterial stiffness as assessed by pulse wave velocity (PWV) may serve as a surrogate marker for future cardiovascular disease. In fact, increased PWV has been known to be independently associated with diabetic nephropathy in type 2 diabetes. Beraprost sodium (BPS) is a stable orally active prostacyclin (PGI2) analogue that has a potent vasodilatory and anti-platelet effect. Also, BPS has been suggested to improve a micro-vascular circulation through a reduction of red blood cell deformability. In addition, recent studies have demonstrated that BPS improves endothelial function through an increase in endothelial nitric oxide synthesis and NO synthase gene transcription. These beneficial effects of BPS have been known to reduce PWV in patients prone to cardiovascular diseases such as elderly, hypertension, or a history of cerebral infarction. However, the effect of BPS on arterial stiffness in patients with diabetic nephropathy remains elusive. Our study will address the effect of BPS on arterial stiffness by PWV in patients with diabetic nephropathy.

The investigators hypothesize that, LPD supplemented with ketoanalogs will reduce urine podocyte loss and lower the angiotensinogen level in the urine.