Active clinical trials for "Diabetic Nephropathies"

This is a multicenter, randomized, placebo-controlled study to evaluate the effectiveness and safety of low-dose aspirin (50 mg/day) in renal and cardiac function protection in people with diabetic nephropathy.

The aim of this study is to test the hypothesis that sotagliflozin (SGLT1/2 inhibitor) and ambrisentan (ERA) combination therapy augments nephroprotection and mitigates fluid retention and ketogenesis in people with T1D through complementary and synergistic mechanisms of actions.

The overarching goal of this study is to understand facilitators and barriers to self-care, develop and refine a culturally tailored intervention to improve clinical outcomes, quality of life (QOL), and self-care behaviors in African American adults with diabetic kidney disease (DKD) experiencing multidimensional adversity (MDA) and living in the inner-city.

Early diabetic kidney disease (DKD) occurs in 50-70% of youth with type 2 diabetes (T2D) and confers high lifetime risk of dialysis and premature death. Youth-onset T2D typically manifests during or shortly after puberty in adolescents with obesity. Epidemiological data implicate puberty as an accelerator of kidney disease in youth with obesity and diabetes and the investigators posit that the link between puberty and T2D-onset may explain the high burden of DKD in youth-onset T2D. A better understanding of the impact of puberty on kidney health is needed to promote preservation of native kidney function, especially in youth with T2D. Puberty is a complex process of physiological changes, including neuroreproductive and growth hormone activation and rapid organ growth, that may predispose organs to injury. The kidneys may be especially susceptible because they are highly metabolically active and second only to the heart with respect to oxygen consumption per tissue mass. During puberty, the kidneys almost double in size, likely increasing the kidneys' already high energy expenditure. In parallel, puberty is associated with physiologic insulin resistance (IR), which is accentuated in obesity. Our central hypothesis is that obese youth with prediabetes and T2D experience relative kidney hypoxia during puberty due to a metabolic mismatch between increased energy expenditure and impaired substrate metabolism. In turn, the kidney hypoxia results in loss of glomerular charge and size selectivity leading to increased transglomerular transport of protein and kidney dysfunction. Our preliminary data showed that pubertal adolescents with obesity and/or diabetes exhibit relative kidney hypoxia compared to normal weight controls using functional magnetic resonance imaging (MRI) and that relative kidney hypoxia is greater in late vs. early puberty. However, determining the pubertal mechanisms contributing to kidney injury in youth with obesity and T2D requires serial evaluations throughout puberty. To assess the impact of pubertal changes within a 5-year study period, the investigators propose an accelerated longitudinal study design in which the investigators will enroll adolescents (8-14 years, 50% girls) with obesity and elevated hemoglobin A1c (HbA1c ≥6%) [n=60], and healthy normal weight controls [n=40] at Tanner (pubertal) stages 1-4 and examine them at baseline, 1 and 2-years. The investigators will then compare data by Tanner stage to construct an integrated portrayal of the physiological changes that occur throughout puberty. Given the rarity of T2D prior to pubertal onset, the investigators chose to enroll a high high-risk group: youth with obesity and HbA1c ≥6.0% to represent youth ranging from those at magnified risk of developing T2D to those recently diagnosed.

A central goal of this data repository is to collect data from a large population of subjects with a variety of renal disease states. Cohorts will include subjects with diabetes, inflammatory/autoimmune and transplant related renal conditions. Additionally, the repository will have the capacity to store biospecimens and electronic data in control subjects without established renal disease. This initiative will provide an opportunity to compare data from various disease states and controls with the objective of determining clinical and biological factors that predict disease progression, response to therapy and identify discriminating noninvasive clinical and biological features that predict renal biopsy findings.

In this pilot clinical trial, the investigators will recruit and randomize 120 patients with diabetes mellitus and chronic kidney disease (CKD/DM) stages 3 to 5 to a patient-centered and flexible Plant-Focused Nutrition in Diabetes (PLAFOND) diet with >2/3 plant-based sources, which will be compared with a standard-of-care CKD diet, which is usually a low-potassium and low-salt diet, over a 6-month period. Through this study, the investigators will determine whether the plant-focused diet intervention is feasible for patient adherence, whether this diet is safe by avoiding malnutrition, frailty, and high potassium or glucose blood levels, and whether patient reported outcomes are favorably impacted.

Diabetic kidney disease (DKD) occurs in up to 40% of people with type 1 diabetes (T1D), often leading to kidney failure and markedly magnifying risks of cardiovascular disease and premature death. Landmark T1D kidney biopsy studies identified the classic pathological lesions of DKD, which have been attributed largely to hyperglycemia. Recent advances in continuous glucose monitoring (CGM) and automated insulin delivery have facilitated improved glycemic control, but the residual risk of DKD continues to be high. In addition, obesity and insulin resistance (IR) have accompanied intensive glycemic therapy and may promote mitochondrial dysfunction and inflammation. Deciphering the molecular underpinnings of DKD in modern-day T1D and identifying modifiable risk factors could lead to more effective and targeted therapies to prevent DKD.

Background: - Family and twin studies have suggested that genetic factors influence approximately 50 percent of a person's susceptibility to type 2 diabetes. Recently, some of the genes involved in the development of type 2 diabetes have been identified, in large part by genome-wide association studies. Certain risk factors for type 2 diabetes, such as obesity and insulin resistance, are highly inheritable, as are diabetic complications such as diabetes-related eye and kidney disorders. However, few genes associated or linked with diabetes risk factors or complications have been conclusively identified, and more research is needed to study specific genetic factors associated with these aspects of diabetes. Objectives: - To identify and characterize genetic variants associated with type 2 diabetes, its risk factors, and its complications. Eligibility: - Individuals at least 18 years of age who are not pregnant or nursing mothers at the start of the study. Design: All participants will provide information about family history, ethnicity and ethnic background, occupation, behavioral risk factors, and other data as requested by the researchers. In addition to a general health history, participants will provide specific information about diabetes history, with particular emphasis on date of diagnosis, symptoms, initiation of insulin therapy, complications, and current medications. Testing procedures will be different for individuals with and without diabetes. Those without diabetes will have an oral glucose tolerance test, while those with diabetes will be examined for diabetic complications. Other tests during the study will include the following: Physical examination with measurements of height and weight, waist circumference, blood pressure, and other tests for individuals who have been diagnosed with diabetes Glucose tolerance test for those who have not been classified as having diabetes Retinal photographs Electrocardiograms Hepatic Ultrasound Blood and urine tests Depending on the results of the examination and laboratory findings, participants may be asked to return to the clinic for supplemental interviews, physical examinations, or blood tests, or to arrange referrals for medical evaluation and treatment. Participants who have diabetes will be asked to return for yearly follow-up visits. Participants who do not have diabetes at the initial examination will be asked to return for follow-up visits every 2 years.

The Family Investigation of Nephropathy and Diabetes (FIND) is a multicenter study designed to identify genetic determinants of diabetic kidney disease. FIND will be conducted in eleven centers and in many ethnic groups throughout the United States. Two different strategies will be used to localize genes predisposing to kidney disease: a family-based genetic linkage study and a case-control study that utilizes admixture linkage disequilibrium. The center based at the Phoenix office of the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK-Phoenix) will conduct family-based linkage studies among American Indian populations in the southwestern United States. Participants (index cases) with diabetes and kidney disease will initially be recruited, and their parents and siblings will also be invited to participate. Genetic material from these participants will be used to genotype markers throughout the genome. Linkage analysis will be conducted to identify particular chromosomal regions containing genes that influence susceptibility to diabetic kidney disease. Linkage analyses will also be used to identify genes influencing traits related to diabetic kidney disease, such as serum creatinine, urinary protein excretion, plasma glucose levels, blood pressure and blood lipid levels. Regions that show evidence for linkage will then be examined in more detail, with both genetic linkage and association studies, to attempt to identify the specific genes that influence diabetic kidney disease, or related traits. The identification of genes that influence susceptibility to diabetic kidney disease will lead to a better understanding of how kidney disease develops. In the long run, this may lead to improved treatment and prevention of diabetic kidney disease....

The study will investigate if treatment with Roxadustat improves kidney oxygenation in diabetic patients with nephropathy receiving treatment for renal anemia, compared to patients receiving treatment with darbepoetin alpha. Participants will be randomized to either treatment, and receive equal care for renal anemia. Kidney oxygenation will be examined before treatment start and after 24 weeks using BOLD-MRI (blood oxygen level-defendant MRI), a non-invasive method available for measurement of tissue oxygenation levels that is comparable with direct invasive measurement of partial oxygen pressure. Blood and urin samples will be collected in connection to these visits. The primary endpoint is the change in medullary and cortical R2* (inversely proportional to the tissue oxygenation content) after 24 weeks. Secondary endpoints will be albuminuria and urinary levels of ROS (evaluated by electron paramagnetic resonance (EPR) spectroscopy with CPH spin probes).