View clinical trials related to Nephrotic Syndrome.
Filter by:The research involves the establishment of a cohort including as much as possible cases of macrothrombocytopenia related to a "MYH9 syndrome" and the study of mutations and polymorphisms of MYH9 gene in all these patients. As MYH9 syndrome is an autosomal dominant disorder, patients should be heterozygous for a MYH9 gene mutation. The main goal of our project is looking for correlations between genotype and phenotype. It is planned to characterize the phenotype and genotype of a cohort of patients, including family members that will be addressed during the study in order to better understand the platelet disorder and improve the epidemiological knowledge of MYH9 syndrome. The data will be recorded in a database.
The purpose of this study is to describe the hormones controlling fluid balance in pediatric patients with nephrotic syndrome. Further more, an analysis of the urinary and plasma proteins will be done using proteomics. Different composition of proteins in the urine or plasma might indicate if the patients will respond to treatment or not.
Exploring the efficacy and safety of Tacrolimus on refractory nephrotic syndrome ; Acquiring the experience of Tacrolimus on the treatment of refractory nephrotic syndrome in Chinese patients.
The primary purpose of the study is to evaluate the association of a latent infection of lymphoid cells during the first manifestation of steroid sensitive nephrite syndrome. The thirty nine units of general pediatrics and pediatric nephrite covering the parisian area will participate to the study. We speculate that hybridization of the genome, or a part of the genome, of a virus in lymphoid cells is responsible specific changes of genes expression, leading to the development of the disease.
Idiopathic membranous nephropathy (IMN) is one of the most common forms of nephrotic syndrome (NS) in adults and is usually treated by corticosteroids in combination with cytotoxic drugs especially cyclophosphamide or cyclosporine. Tacrolimus, a new immunosuppressive agent, was proved to be effective in treating refractory NS. Whether it is effective in IMN has not been reported. We therefore undertook a multi-center, controlled study to investigate the efficacy and safety profile of tacrolimus compared with cyclophosphamide in the treatment of patients with idiopathic membranous nephropathy and nephrotic syndrome.
We aim to investigate (1) the effects of combined pentoxifylline and corticosteroids, compared to that of corticosteroids, on patients with primary nephrotic syndrome; and if possible (2) the effects of pentoxifylline monotherapy on patients with primary nephrotic syndrome not suitable for or intolerant of standard corticosteroid therapy.
The purpose of this study is to characterize the skeletal deficits and risk factors for impaired skeletal development in children requiring glucocorticoid therapy. We will compare the bone health of children treated with prednisone for nephrotic syndrome (NS with those treated with prednisone for Crohn's Disease (CD). Childhood NS usually responds to prednisone and is not characterized by pathologies that can impact on bone. In contrast, CD is treated with prednisone, but is independently associated with poor growth and maturation, nutritional deficiencies and inflammation. Due to the differences in the diseases, this comparison will allow us to distinguish between the prednisone-related and disease-related effects on bone in the two disease states.
We want to test the hypothesises that patients with nephrotic syndrome have a higher excretion of AQP2 in the urine,that they have a higher concentration of AVP,and a lower C-H2O.Everything will normalize, when the syndrome is in remission.Furthermore we want to test the hypothesis that the expression of mutations in the NPHS2-gene,that codes for podocin,will cause a lack off or a poorer response in the treatment of nephrotic syndrome
Kidney Disease Biomarkers Summary: This study will identify biomarkers (proteins and other molecules in the blood or urine) that may help scientists predict what kidney disease a patient has and whether a given patient would respond to particular therapies. The study will look for biomarkers in the blood and urine of patients with various kidney diseases and study of the effects of angiotensin converting enzyme inhibitors (ACE inhibitors) and angiotensin receptor blockers (ARB) on biomarkers. Blood and urine from healthy volunteers will be studied for comparison. Healthy people and the following patients may be eligible for this study: adults with diabetic nephropathy 18 years of age and older; children with newly diagnosed clinical idiopathic nephrotic syndrome between 2 and 18 year of age; children and adults with glomerular disease (minimal change disease, focal segmental glomerulosclerosis, or collapsing glomerulopathy). Participants undergo tests and procedures as follows: Glomerular Disease: Adults with glomerular disease provide about four to six blood and urine samples over the course of 6 to 12 months. The samples are collected at the time of regularly scheduled visits for the NIH treatment protocol in which they are participating. Children provide only blood samples. Chronic Kidney Disease: Patients with chronic kidney disease provide a blood and urine sample every 6 months for 3 years or more. Angiotensin Antagonism: Patients with chronic kidney disease who are taking ACE inhibitors or ARBs stop their medicines for 4 weeks, while those who are not taking ACE inhibitors or ARBs begin one of the medicines. In general, patients just starting on the medications continue them after the study is completed, since they are beneficial for chronic kidney disease. - Medication withdrawal group: Patients come to NIH for 2 successive days at the beginning of the study for blood and urine tests (including one 24-hour urine collection) and to receive iothalamate (a chemical used to measure kidney function). Iothalamate is delivered over 24 hours through a needle placed in the abdomen (or elsewhere) via a pump similar to pumps that some diabetics use to deliver insulin. Patients then stop taking their ACE inhibitor or ARB medication. They monitor their blood pressure every day and return to NIH after 1, 2 and 4 weeks for blood tests. During week 4, the iothalamate infusion is repeated, and blood and urine samples are collected as at the beginning of the study. Patients then resume taking their ACE inhibitor or ARB once a day with the dose being increased at 2-week intervals. They come to NIH weekly after 1 week and then every other week for blood tests. Four weeks after reaching the highest FDA-recommended dose of medication tolerated, the iothalamate infusion and blood and urine collections are repeated. - Medication induction group: At the beginning of the study, patients have the iothalamate infusion and blood and urine collections described above and then begin to take either an ACE inhibitor or ARB. The dose is increased after 2 weeks. Patients monitor their blood pressure every day. After being on the highest dose for 4 weeks, patients repeat the iothalamate infusion and blood and urine collections. The study is then complete and they are provided a 2-month supply of medicine to take home. Information is gathered on symptoms, treatments, and results of past laboratory tests of all patients. Healthy volunteers provide blood and urine sample collections every month or every other month for up to four collections to be used for biomarker studies and the screen for common chronic diseases.
Aims This study was conducted to examine the association between the ACE insertion/deletion (I/D) genotype distribution in children with idiopathic nephrotic syndrome and the response to steroid therapy. Patients and Methods The patients with idiopathic nephrotic syndrome were divided into 2 groups according to their clinical response to steroid: SS group including infrequent and frequent relapsers and non-SS group including steroid resistant (SR) and steroid dependent (SD) patients. Children without previous renal diseases and negative proteinuria were enrolled as control group in genetic study. The genotypes for ACE gene I/D polymorphism including DD, ID and II were analyzed by the newly developed automatic denaturing high performance liquid chromatography system (DHPLC).