View clinical trials related to Proteinuria.
Filter by:Proteinuria is the predominant risk factor for renal disease progression in Fabry disease (FD). When urine protein excretion is controlled to <0.50 g/24 hr, the rate loss of glomerular filtration rate (GFR) is not significantly different from 0. However, enzyme replacement therapy (ERT) alone does not decrease proteinuria and it has been recommended that patients receiving ERT also receive anti Renin-Angiotensin-System (RAS) therapy. Emerging evidences show that paricalcitol (PCT) reduces proteinuria in presence of intensified inhibition of RAS; however, there is no evidence in FD. The aim of this study is to evaluate the antiproteinuric effect of PCT in FD patients with proteinuria >0.50 g/24 hr persisting despite the ERT and anti-RAS therapy titrated to maximum tolerated dosage.
-Evaluate the efficacy and safety of Shenyankangfu Tablets to control the proteinuria of patients with primary glomerulonephritis compare with Losartan potassium.
The goal of this study is to evaluate the benefit of ACTH (Acthar) in reducing proteinuria associated with transplant glomerulopathy in non-diabetic kidney transplant recipients.
Chronic kidney disease (CKD) and chronic viral hepatitis due to hepatitis B virus (HBV) are both major public health problems. Treatment of chronic HBV infection in CKD patients, however, is not well defined because of insufficient data from clinical trials. Telbivudine is a new antiviral that provides effective and sustained viral suppression in patients with compensated chronic hepatitis B infection. Unlike other nucleotide and nucleoside analogues, renal toxicity is uncommon in telbivudine, and dosage adjustment is not required in patients with mild renal impairment. We propose to conduct an open-label single-arm study to evaluate the effect of telbivudine on renal function and proteinuria in patients with chronic HBV infection and mild-to-moderate renal impairment. Twenty patients with chronic HBV infection and chronic kidney disease (estimated glomerular filtration rate 15 to 60 ml/min) will be recruited. They will be treated with telbivudine, with the dosage adjusted according to thei renal function, for 5 years. Serum HBV DNA, proteinuria, renal function, and urinary inflammatory markers will be monitored.
Phosphorus-based food additives are commonly used by food manufacturers for many applications, such as enhancing flavor, in ready-to-eat foods and beverages. While these additives can significantly increase an individual's daily phosphorus intake, little is known about the effect of dietary phosphorus on kidney health. In this study, the investigators will first lower baseline phosphorus intake to about 1000mg/d by educating participants to avoid foods with phosphorus additives. Then, participants will be randomized to a higher phosphorus period (~2gm/d) and a lower phosphorus period (~1gm/d) by providing unaltered, commercially-available food/beverage products with and without phosphorus additives. The investigators hypothesize that participants will have higher urine albumin excretion and fibroblast growth factor-23 (FGF-23) during the higher phosphorus period compared to the lower phosphorus period.
This is a single-arm, multicenter, open-label Phase II, proof-of-mechanism study to evaluate the efficacy, safety, tolerability and pharmacokinetics of losmapimod in approximately 21 subjects with primary (idiopathic) focal segmental glomerulosclerosis (FSGS) and substantive proteinuria as indicated by a Urinary protein/creatinine Up/c ratio >=2 gram/gram (g/g) or 24 hr urine protein >=2 g/day. Losmapimod will be orally administered twice daily over a 24-week treatment phase followed by a 12-week follow-up for safety and relapse assessments.
Preeclampsia is a disease which occurs in about 6-8% of all pregnancies and is the main cause of maternal and fetal morbidity and mortality. The cause of preeclampsia is still not clear and the only therapy is preterm caesarean section. In severe preeclampsia an accumulation of triglyceride-rich lipoproteins occurs. Therefore, lipid apheresis is performed as lipid-removing therapy for treatment of preeclampsia in order to prolong pregnancy and provide the fetus more time for maturation. In this individual treatment patients with early preeclampsia (<= 32 weeks of gestation) will be offered a H.E.L.P.-apheresis to postpone caesarean section and therefore prolong pregnancy.
The purpose of this study is to determine if the oral supplementation with curcumin reduces proteinuria in patients with chronic kidney disease regardless the ethiology.
Preeclampsia (PE) is a common disorder of pregnancy that complicates 4-7% of all pregnancies. It is a serious condition with acute proteinuria and hypertension and varying degrees of edema after 20 weeks of gestation. PE leads to a severe risk of low birth weight because of prematurity with inherent complications. The pathogenesis is unknown but is assumed to involve placental ischemia.The primary placental disorder results in renal glomerular injury. Established PE is associated with paradoxical suppression of the renin-angiotensin-aldosterone system, RAAS. Despite suppressed RAAS, patients with PE retain NaCl(sodium chloride) after an intravenous isotonic NaCl overload compared to healthy pregnant women on a low NaCl diet. The investigators believe to have data that provide a possible explanation for the overall relationship between proteinuria, NaCl retension, suppression of RAAS, hypertension and underdevelopment of placenta. Earlier data, which the investigators have confirmed, shows abnormal glomerular loss of the enzyme plasmin/plasminogen from plasma to the urine in PE. Active plasmin in urine from patients with nephrotic syndrome and PE activates the epithelial sodium channel ( ENaC ) in renal collecting duct cells. The investigators hypothesize that loss of plasmin/plasminogen are shared for the diseases with proteinuria, including PE, and that plasmin- driven ENaC (epithelial sodium channel) activation is a causal factor in the pathophysiology of established PE. Hyperactive ENaC causes primary renal sodium retention with secondary suppression of the renin-angiotensin-aldosterone system. Aldosterone is recently established as a placental growth factor. Plasma-aldosterone levels are significant higher in normal pregnant women. PE is characterized by low aldosterone levels (a discovery the investigators have also confirmed) and by placental underdevelopment. Study Aim: To test specific hypothesis regarding established PE´s pathophysiological mechanisms. Study Hypothesis: 1. Excretion of urine proteases (plasmin/plasminogen) in PE leads to an activation of ENaC and hence RAAS is less NaCl sensitive while the blood pressure is more NaCl sensitive compared to healthy pregnant women. 2. The degree of aldosterone suppression in PE determines placental development
Forced blockade of the renin-angiotensin-system (RAS) by using direct renin inhibition (DRI) has long been propagated to effectuate beneficial outcomes. However, recent large clinical trials have outlined harmful effects for DRI in combination with other forms of RAS blockade. To date, information regarding DRI as RAS-blocking monotherapy is very limited. Furthermore, it remains to be elucidated how DRI and angiotensin receptor blockers affect the so-called 'classical' and 'alternative' RAS molecularly. As components of the 'alternative' RAS (e.g. Ang 1-7) have moved into research focus, it would be of importance to determine angiotensin regulation with medical RAS blockade. In this prospective, single-center randomized trial over 10 weeks, 24 patients with chronic kidney disease (CKD) stage III-IV (eGFR 15-59 ml/min) will be randomized to take either aliskiren (up to 300 mg per day) or candesartan (up to 16 mg per day) after a two week run-in phase where all RAS-blockers are eliminated. The investigators will then employ a novel mass spectrometry-based quantification method (after run-in and 10 weeks) to capture the concentrations of ten different angiotensin peptides (including angiotensin I and II, angiotensin 1-7 and angiotensin 1-5). The investigators hypothesize that significant differences exist between angiotensin levels in CKD patients with DRI compared to angiotensin receptor blockers. Specifically, the investigators expect to determine the regulation of the alternative RAS represented by angiotensin 1-7 with proximal versus distal blockade of the system. Our data might contribute to a more profound understanding of results from registries and clinical trials beyond the clinical effects of RAS blockade. Further, the study's results might help to individualize and optimize RAS-blocking therapy strategies in CKD patients.