View clinical trials related to Proteinuria.
Filter by:The aim of this study was to evaluate diagnostic accuracy of the spot urinary proteinuria, random urine protein- creatinin ratio for prediction of significant proteinuria (≥ 300 mg/24h) and magnitude of proteinuria in patients with in mild preeclampsia and severe preeclampsia. The cross-sectional longitudinal study design used, 209 patients with pre-diagnosed preeclampsia in which in our inpatients clinic included this study. Random urine samples were taken before the 24 hour urine collection for spot urine analysis for evaluated proteinuria and protein/creatinin ratio. 24 hour urine analysis was performed in all patients as the gold standard of the urine total proteinuria.
This Phase 2A study is an adaptive design pilot study investigating the efficacy and safety of daily Acthar administration in diabetic patients with nephropathy and proteinuria. Patients with type 1 diabetes mellitus (T1DM) or T2DM who currently take insulin will be enrolled and randomized into 6 study groups and will be treated with either Acthar or Placebo for 36 weeks, followed by a 4 week dose taper, and a 12 week observation period. The study will compare three dose regimens of Acthar (8 U [0.1 mL], 16 U [0.2 mL], and 32 U [0.4 mL]) to equivalent volumes of Placebo to ensure the double-blind nature of the study. Insulin-requiring patients are being enrolled to aid compliance with the daily SC administration of study medication and to allow for ease of blood glucose control by adjustment of current insulin therapy in the event of glycemic excursions. Routine safety measures, including glycemic control, will be monitored throughout the study. The adaptive design component of the study allows for the re-assignment of the high dose group to the mid dose group if unacceptable toxicity is noted as per study protocol in the high dose group. Efficacy will be assessed by monitoring serum creatinine, calculated eGFR, and proteinuria (via urinary protein to creatinine ratio [PCR]). Serum cortisol concentration and additional biomarkers in blood and urine will also be monitored.
The DERENEDIAB study is a proof-of-concept, multi-center, prospective, open, randomized, controlled study of the effectiveness of renal denervation in addition to standardized medical treatment compared to medical treatment alone in diabetic subjects with diabetic nephropathy and resistant proteinuria. Bilateral renal denervation will be performed using the Symplicity Catheter - a percutaneous system that delivers radiofrequency (RF) energy through the luminal surface of the renal artery.
The measurement of 24-hour proteinuria allows an assessment of treatment response in patients with multiple myeloma. But it is difficult and restrictive to make. This study was therefore designed to investigate the correlation between the ratio of proteinuria / creatinine on samples, easier to obtain, and the 24-hour proteinuria in assessing response to this treatment .
Diabetes mellitus (DM) is a growing disease and it is a public health concern, and projections of its future effect are alarming. About one third of those affected will develop diabetic nephropathy at 20 years after diagnosis. Of these patients, 20% will develop clinically end-stage renal disease ESRD, requiring renal replacement therapy (RRT). Patients with type 2 diabetes account for most patients with end stage renal disease (ESRD) and RRT. To the best of the investigators knowledge, the effects of MMF on diabetic nephropathy in patients with DM type II were not studied so far. Therefore, the purpose of this pilot study is to evaluate the effects of Mofetil Mycophenolate (MMF) on proteinuria and progression of kidney disease of diabetic origin, in patients at high risk for progressive renal failure in whom other treatment modalities are insufficient or had failed.
The main purpose of the study is to compare the effects of three different types of RAAS blockade on 24 hours proteinuria in patients with non-diabetic chronic kidney disease.
Proteinuria is not only a marker of chronic kidney disease (CKD) progression, but also a marker of cardiovascular disease and death. In previous studies, active vitamin D deficiency is associated with cardiovascular risk factors such as albuminuria, diabetes mellitus, and lower glomerular filtration rate (GFR). And calcitriol was shown to have a preventive effect in progressive glomerular damage in a renal ablation model. Calcitriol, an active form of vitamin D (1,25-dihydroxyvitamin-D3), is commonly used for the treatment of secondary hyperparathyroidism in patients with advanced chronic kidney diseases. Therefore, the objective of this study is to evaluate the anti-proteinuric effect of calcitriol in non-diabetic kidney disease patients. They will be treated with calcitriol and placebo for 24 weeks and observed for 24 weeks after treatment. Proteinuria, renal function, serum and urinary inflammatory markers, and adverse event will be monitored.
This study focuses on the genetics and metabolism of Donnai-Barrow Syndrome (DBS).
The study 'Safety and Efficacy of Paricalcitol for Reduction of Proteinuria in Kidney Transplant Recipients' is designed to assess the effects of paricalcitol in kidney transplant recipients with proteinuria. It is a single centre, randomized, placebo-controlled, double-blind clinical trial that tests the hypothesis that 24 weeks' treatment with paricalcitol compared to placebo will result in a decrease in urinary protein excretion in recipients of a kidney transplant at least three months after transplantation. Additionally, the effects of paricalcitol on albuminuria, estimated glomerular filtration rate, and blood pressure will be investigated.
Active forms of vitamin D and its analogs are used to treat elevated parathyroid hormone levels and bone disease in chronic kidney disease (CKD). More recent animal and human studies suggest that treatment with vitamin D may be associated with reduction of inflammation and urinary protein loss as well as reduction the activity of the renin angiotensin system (RAS) in addition to its effects on the bone metabolism. The investigators of this study have used the new technique of contrast enhanced ultrasound (CEU) to measure the flow of blood to the kidney in other human studies. In this study, the investigators will investigate if 3 month of treatment with an active form of vitamin D in individuals with kidney disease and high parathyroid hormone levels would reduce protein loss in the urine. The investigators will also look at the potential changes in blood flow to the kidney using CEU, kidney function (GFR), inflammation and activity of RAS in response to treatment with active form of vitamin D. Finally, they will examine the association between reduction of protein loss in the urine as shown in other studies with any of the other factors measured (e.g, change in blood flow or inflammation).