View clinical trials related to Diabetic Nephropathies.
Filter by:Diabetic kidney disease has become the leading cause for ESRD worldwide.Albuminuria is a major risk factor for progression of diabetic nephropathy. SGLT2 inhibitors are the first antiglycaemic drugs with direct renoprotection, which are thought to protect the kidneys by lowering albuminuria, stimulating urinary glucose excretion ,reducing systemic blood pressure, while simultaneously improving multiple other risk factors in a glucose-independent manner. However, the precise mechanisms behind the renal beneficial effect of SGLT2 inhibitors are not entirely elucidated, although ongoing outcome trials will confirm these findings. This study is to assess the impact of three months of treatment with SGLT2 Inhibitions on different levels of albuminuria in patients with type 2 diabetes and to evaluate the effects of SGLT2 inhibition treatment on markers for podocyte damage , renal fibrosis, inflammation,oxidative stress and renin-angiotensin- aldosterone system.
This clinical trial assessed the safety of human umbilical cord mesenchymal stem cell therapy in 15 patients with diabetic nephropathy. Fifteen subjects received umbilical cord mesenchymal stem cell therapy 3 times. Approximately 1 × 106/kg of human umbilical cord mesenchymal stem cells were administered by peripheral intravenous infusion once a month .Endpoints:Primary endpoint: Safety and adverse events (safety and tolerability of umbilical cord mesenchymal stem cell therapy within 60 weeks).Secondary endpoint indicators:Efficacy measures: eGFR, urinary albumin-to-creatinine ratio, and percentage changes of 24-h urinary protein quantities from baseline to 60 weeks.
Significant differences in the expression of individual Growth Differentiation Factor 15 (GDF-15) proteins among Taiwanese harboring different mitochondrial genotypes are noted, and their blood serum levels also exhibited associations with diabetes. GDF-15 was originally discovered as an autocrine regulator of macrophage activation and shown to play important roles in fibrosis, malignancy, cardiovascular disease, glycemic control, and obesity. However, the relationship between GDF-15 and pre-diabetes and diabetes in Asian populations has yet to be fully investigated. Besides, any indirect associations between GDF-15 levels and diabetic complications remain unclear. The investigators aim to further investigate the role of GDF-15 levels in the initial diagnosis of diabetes, the monitoring of medication effectiveness and disease progression, and related complications such as diabetic nephropathy and neuropathy. The DNA isolated from the blood samples will be evaluated to determine individual mitochondria haplogroups, including variants located within the coding and control regions of the mitochondrial genome.
Despite decades of research, the pathogenesis of human diabetic kidney disease remains largely unclear. Our goal is to use archived human kidney biopsy tissue from patients with and with diabetic nephropathy to identify new molecules that drive and/or protect against disease progression. We will use RNA sequencing to identify transcriptomic changes that associate with histologic and functional outcomes.
The objectives of the Clinical Validation Through Analytical Study With Urine Samples to Compare the Effectiveness and Security of an Intelligent Device are: 1.To evaluate the performance of S-There Device in comparison to the golden standard used in the lab.
Adolescents and young adults with youth-onset type 2 diabetes (T2D) are disproportionally impacted by hyperuricemia compared to non-diabetic peers and youth with type 1 diabetes (T1D). In fact, 50% of males with youth-onset T2D have serum uric acid (SUA) greater than 6.8 mg/dl. The investigators also recently demonstrated that higher SUA conferred greater odds of developing hypertension and diabetic kidney disease (DKD) in youth with T2D over 7 years follow-up. Elevated SUA is thought to lead to cardiovascular disease (CVD) and DKD by inflammation, mitochondrial dysfunction and deleterious effects on nephron mass. While there are studies demonstrating beneficial effects of uric acid (UA) lowering on vascular health in the general population, there are no studies in youth-onset T2D. Youth-onset T2D carries a greater risk of DKD and CVD compared to adult-onset T2D and T1D. Accordingly, a clinical trial evaluating UA lowering therapies is needed in youth-onset T2D. Krystexxa (pegloticase), a uricase, effectively lowers SUA and therefore holds promise as a novel therapy to impede the development of CVD and DKD in youth-onset T2D. This proposal describes a pilot and feasibility trial evaluating the effect of UA lowering by pegloticase on markers of CVD and DKD in ten (n=10) youth aged 18-25 with youth-onset T2D (diagnosed <21 years of age) over 7 days. The overarching hypothesis is that pegloticase improves marker of cardiorenal health by lowering UA.
Diabetic nephropathy (DN) is a common cause of end-stage renal disease (ESRD) and accounts for nearly half of all new patients starting dialysis in Singapore, the country with the highest rates of DN in the Asia-Pacific region. Despite the scale of the problem, little progress has been made in our understanding of the pathogenesis of the disorder and no new therapies have been offered. The investigators have conducted a metabolomics study of human diabetic nephropathy that revealed evidence for alterations in mitochondrial fuel metabolism in patients with the disease, a finding also reported in other recent studies of human DN. Based on this finding the investigators believe that dysregulated mitochondrial fuel oxidation is a major driver of diabetic nephropathy. Fenofibrate is an agonist of peroxisome-proliferator activating receptor (ppar)-alpha that is approved for the treatment of hypercholesterolaemia and hypertriglyceridemia alone or combined in patients unresponsive to dietary and other non-drug therapeutic measures. Fenofibrate is also indicated for the reduction in the progression of diabetic retinopathy in patients with type 2 diabetes and existing diabetic retinopathy. Presently fenofibrate is not indicated for the treatment of diabetic nephropathy. The investigators hypothesize that treatment with fenofibrate, taken orally at 300mg per day or 100mg per day for 30 days will lead to significant changes in the circulating metabolomics patterns in patients with DN. The investigators propose to administer the drug for a period of 30 days and will perform a comprehensive analysis of the state of fuel metabolism in these patients before, and after the administration of fenofibrate using targeted metabolomics and other approaches. Fundal photography, Optical Coherence Tomography (OCT) and Optical Coherence Tomography Angiography (OCTA) will also be performed at baseline and post-treatment. A total of 300 subjects will be recruited from Singapore General Hospital (SGH) Diabetes and Metabolic Centre. Our goal is to discover key changes in fuel metabolism in DN patients receiving fenofibrate.
With the rapid increase of diabetic nephropathy worldwide, type 2 diabetes mellitus(DM) is the leading cause of end-stage renal disease(ESRD). Pathological types of diabetic kidney disease(DKD) could be mainly divided into diabetic nephropathy(DN)and non-diabetic renal diseases(NDRD). There are no accurate renal biopsy indications and standardized operation procedures for type 2 diabetic nephropathy. The clinical stages of type 2 diabetic nephropathy still referred to the Mogensen stage of type 1 diabetic nephropathy. Thus, our study aim to clarify the differences in clinical phenotype between type 2 DN and type 2 NDRD, analysis the correlation between clinical and pathological features, and offer the criteria for clinical staging and prognosis.
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.
One of the purposes of the management of the patient with chronic kidney disease (CKD)is to slow the decline of renal function. The mechanisms by which the renal function declines involve inflammatory and fibrotic responses due in part by the effects of oxidative stress. Pentoxifylline (PTX)is a drug that stimulates adenosine receptors, and produces inhibition of phosphodiesterases, as well as being a dopaminergic modulator through D1 and D2 receptors. Its main effects are inhibition of the inflammatory state by decreasing serum levels of tumor necrosis factor alpha (TNF-ɒ) and monocyte chemo attractant protein 1 (MCP_1), which may slow down the decline of renal function. It also produces diminish of sympathetic activity, with the reduction of circulating levels of norepinephrine (NA), which may contribute to the reduction of glomerulosclerosis in diabetic patients. In the connective tissue increases the activity of the collagenases and decrease of collagen, fibronectin and glucosamine of the fibroblasts as well as inhibition of oxygen free radicals. Due to its antioxidant, anti-inflammatory and anti-fibrotic effects, PTX can result in an excellent therapeutic option for the prevention of CKD in DM2. This work proposes the use of pentoxifylline as treatment CKD in DM2. Its application in patients with CKD will allow a therapeutic management with different targets, for its antioxidant, anti-inflammatory and antifibrotic effects that will be evaluated by means of fibrosis, inflammation and oxidative stress markers. The results will be of great importance in clinical practice, since they will justify the use of a new pharmacological tool, already known, with minimal adverse effects and low cost, accessible to all strata of the population since it is found as generic.