View clinical trials related to Diabetic Nephropathies.
Filter by:Type 2 diabetes (T2D) in youth is increasing in prevalence in parallel with the obesity epidemic. In the US, almost half of patients with renal failure have DKD, and ≥80% have T2D. Compared to adult-onset T2D, youth with T2D have a more aggressive phenotype with greater insulin resistance (IR), more rapid β-cell decline and higher prevalence of diabetic kidney disease (DKD), arguing for separate and dedicated studies in youth-onset T2D. Early DKD is characterized by changes in intrarenal hemodynamic function, including increased renal plasma flow (RPF) and glomerular pressure with resultant hyperfiltration, is common in Y-T2D, and predicts progressive DKD. Studies evaluating the two currently approved medications for treating T2D in youth (metformin and insulin) have shown these medications are not able to improve β-cell function over time in the youth. However, recent evidence suggests that bariatric surgery in adults is associated with improvements in diabetes outcomes, and even T2D remission in many patients. Limited data in youth also supports the benefits of bariatric surgery, regarding weight loss, glycemic control in T2D, and cardio-renal health. While weight loss is important, the acute effect of bariatric surgery on factors such as insulin resistance likely includes weight loss-independent mechanisms. A better understanding of the effects of bariatric surgery on pancreatic function, intrarenal hemodynamics, renal O2 and cardiovascular function is critical to help define mechanisms of surgical benefits, to help identify potential novel future non-surgical approaches to prevent pancreatic failure, DKD and cardiovascular disease. The investigators' overarching hypotheses are that: 1) Y-T2D is associated with IR, pancreatic dysfunction, intrarenal hemodynamic dysfunction, elevated renal O2 consumption and cardiovascular dysfunction which improve with bariatric surgery, 2) The early effect of bariatric surgery on intrarenal hemodynamics is mediated by improvement in IR and weight loss. To address these hypotheses, the investigators will measure GFR, RPF, glomerular pressure and renal O2, in addition to aortic stiffness, β-cell function and insulin sensitivity in youth ages 12-21 with T2D (n=30) before and after vertical sleeve gastrectomy (VSG). To further investigate the mechanisms of renal damage in youth with T2D, two optional procedures are included in the study prior to vertical sleeve gastrectomy: 1) kidney biopsy procedure and 2) induction of induced pluripotent stem cells (iPSCs) to assess morphometrics and genetic expression of renal tissue.
Over 1.25 million Americans have type 1 diabetes (T1D), increasing risk for early death from cardiorenal disease. The strongest risk factor for cardiovascular disease (CVD) and mortality in T1D is diabetic kidney disease (DKD). Current treatments, such as control of hyperglycemia and hypertension, are beneficial, but only partially protect against DKD. Hyperfiltration is common in youth with T1D, and predicts progressive DKD. Hyperfiltration is also associated with early changes in intrarenal hemodynamic function, including increased renal plasma flow (RPF) and glomerular pressure. Intrarenal hemodynamic function is strongly influenced by the renin-angiotensin-aldosterone system (RAAS), which is also considered a key player in the pathogenesis of DKD. Preliminary data demonstrate differences in intrarenal hemodynamic function and RAAS activation in early and advanced DKD in T1D. However, the pathophysiology contributing to the differences observed in RAAS activation and intrarenal hemodynamic function in T1D are poorly defined Animal research demonstrates that arginine vasopressin (AVP) acts directly to modify intrarenal hemodynamic function, but also indirectly by activating RAAS. Preliminary data suggest that elevated copeptin, a marker of AVP, which predicts DKD in T1D adults, independently of other risk factors. However, no human studies to date have examined how copeptin relates to intrarenal hemodynamic function in early DKD in T1D. A better understanding of this relationship is critical to inform development of new therapies targeting the AVP system in T1D. Accordingly, in this study, the investigators propose to define the relationship between copeptin and intrarenal hemodynamics in early stages of DKD, by studying copeptin levels, renal plasma flow, and glomerular filtration in youth (n=50) aged 12-21 y with T1D duration < 10 y.
Homocysteine levels have been found elevated in T1DM patients with Diabetic nephropathy (DN) due to several causes, including dietary deficiencies. Hyperhomocysteinemia induces renal injury and is associated with increasing urinary albumin excretion(UAE). Therefore, the investigators performed a randomized-controlled trial of oral supplementation with vitamin B complex as an adjuvant therapy for nephropathy in pediatric patients with T1DM and assessed its relation to homocysteine levels, glycemic control, microalbuminuria and cystatin C as a marker of nephropathy.
Diabetes mellitus is one of the most prevalent health problems worldwide. Diabetic nephropathy has become the leading cause of end-stage kidney disease worldwide and is associated with an increased cardiovascular risk. Traditionally, metabolic and hemodynamic factors are the main causes of renal lesions in patients with type two diabetes mellitus and diabetic nephropathy , both considered non-immune diseases. Serial researches has demonstrated that diabetic nephropathy is a metabolic and hemodynamic disorder, with inflammation playing a vital role in the process.
Diabetes Mellitus is the leading cause of end stage renal disease. As proven by many studies , controlling proteinuria can delay the progression to end stage renal disease.This work will study the effect of sodium glucose co transporter 2 inhibitor , a new antihyperglycemic drug , on proteinuria and to compare its effect with the effect of classic antiproteinuric drugs as angiotensin converting enzyme inhibitor , aspirin and statins.
The purpose of this study is to demonstrate the efficacy of multiple oral doses of RTA 402 (5, 10, or 15 mg) administered once daily in patients with diabetic kidney disease (DKD) using the time to onset of a ≥ 30% decrease in estimated glomerular filtration rate calculated from serum creatinine (eGFR) from baseline or end-stage renal disease (ESRD) as an indicator in a randomized, double-blind, placebo-controlled study; the safety of RTA 402 will also be evaluated.
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
Background: Today diabetic nephropathy is a frequent, and the most lethal and costly complication of diabetes. Although treating blood pressure with agents blocking renin angiotensin system has improved outcome, the prognosis is still poor and no new interventions have been successful during the past decade. There is an urgent need for discovery of new pathways behind the development and progression of diabetic nephropathy as well as of biomarkers which can identify subjects at risk of developing adverse events. Objective: By using a multidimensional 'omics' approach, we aim to search for novel proteins, metabolites and pathways that will point to the putative new mechanisms which underlie the early renal decline. Design: Cross-sectional study, with long-term register-based follow-up. Study population: 160 patients with type 1 diabetes recruited from Steno Diabetes Center Copenhagen stratified based on stage of diabetic kidney disease, and 50 healthy non-diabetic controls. Endpoints: Primary endpoint: Glycocalyx thickness, assessed as perfused boundary region. Secondary endpoints: Gut microbiome characterisation and markers of gastrointestinal inflammation, autonomic and periphery neuropathy, urine and plasma Flow Cytometry Analysis (FACS), metabolomics and proteomics in plasma and urine, and other potential biomarkers.
This project is an intervention study where type 2 diabetic patients will rotate through 4 different albuminuria lowering drugs with the aim to 1) quantify the individual relationship between drug exposure and albumin lowering response of different albuminuria lowering drugs in type 1 and type 2 diabetics; and 2) to investigate the effect of the same drug intervention on the glycocalyx layer in blood vessels. The overall purpose of this study is to allow for future personalized treatment of diabetics with regards to treating kidney disease more effectively than current standardized strategies.
NephroNet proposes to examine whether combining Spironolactone with maximal RAAS blockade will further reduce urinary protein at one year and whether prolonged therapy (24 months) is able to slow the decline in GFR. Because of combination MRA and RAAS therapy significantly increases the risk for clinically significant hyperkalemia, we also plan to determine whether the addition of Patiromer to these patients facilitates the use of combination therapy and allows a larger proportion of diabetic patients the potential benefit of combination therapy on renal function.