View clinical trials related to Hyperphosphatemia.
Filter by:The goal of this clinical trial is to learn if Niacin has an effect on lipoprotein (a) concentration and hyperphosphatemia, which represent strong risk factors for cardiovascular diseases, in End-stage renal disease (ESRD) patients undergoing hemodialysis. It will also learn about the safety of Niacin. The main questions it aims to answer are: - Does Niacin lower lipoprotein (a) concentration? - Does Niacin treat hyperphosphatemia in End-stage renal disease (ESRD) patients undergoing hemodialysis? Researchers will compare Niacin to a control group (taking no drug) to see if drug Niacin works to treat hyperphosphatemia and lower lipoprotein (a) concentration. Participants will: - Take drug Niacin or no drug every day for 3 months - Visit the clinic once every 2 weeks for checkups and tests All Patients will be subjected to the following: 1. Informed consent. 2. Demographics and history taking: Using Patient Data sheet. 3. Laboratory evaluation including: Kidney function tests: blood urea,serum creatinine, albumin ,uric acid. Complete blood count (CBC). Lipid profile:Lipoprotein (a),total cholesterol,triglyceride,high density lipoprotein (HDL), low density lipoprotein (LDL). Phosphorous, calcium, sodium, parathyroid hormone (PTH), alkaline phosphatase (ALP). C-reactive protein (CRP).
The purpose of this study is to evaluate the safety and efficacy of Nephoxil capsule administration for the improvement of hyperphosphatemia in CKD patients undergoing hemodialysis under actual conditions of routine medical care.
The objective of this post-marketing surveillance (PMS) study is to assess the safety and effectiveness of Nephoxil capsule 500 mg (Ferric Citrate 500 mg, equivalent to 105 mg Ferric Iron) in routine clinical settings
The purpose of this study is to assess the improvement degree of nutritional care program on the nutritional status and eating habits of hemodialysis patients
The goal of this clinical trial is to learn about the following questions in the patients receiving maintenance hemodialysis with elevated blood phosphorus: - How much effect AP-306 has assessed by blood phosphorus lowering; - How safe and tolerable AP-306 is. Participants will receive either following treatments: - AP-306, and - Sevelamer carbonate.
A phase 2, randomized, placebo-controlled, double-blind, dose-finding study of TS-172 in hyperphosphatemia patients on hemodialysis
The aim of the study is to evaluate the efficacy and safety of cholestyramine in the management of hyperphosphatemia in hemodialysis patients. Colestilan is a non-metallic phosphate binder that acts as an anion-exchange resin. Colestilan itself is not absorbed after oral administration, and it is able to bind dietary phosphate within the gastrointestinal tract and thus prevent absorption of the mineral. Initial, Phase II, studies showed that it reduces serum phosphorus levels in dialysis patients with hyperphosphatemia without affecting serum calcium levels. There are no studies conducted about the feasibility and efficacy of cholestyramine as an oral phosphate binder in hemodialysis patients. Relying on the efficacy and safety of bile acid sequestrants such as colestilan and colestipol in the management of hyperphosphatemia and hypercholesterolemia in hemodialysis patients, cholestyramine is selected to be studied in hemodialysis patients. A total of 80 patients will be recruited and divided into 2 groups: - Group 1: (cholestyramine 12 gram), 40 patients will take a dose of cholestyramine 4-gram sachet in 150-200 ml water or juice three times daily within meals as an add on therapy with standard therapy calcium-based phosphate binder (Calcimate). Group 2: Control group, 40 patients will take only the standard therapy calcium-based phosphate binder (Calcimate). Time of the trial will be two months (8 weeks trial period) Baseline characteristics: The following data will be collected from all patients at baseline 1. Age, sex, weight, duration of ESRD and hemodialysis comorbidities. 2. Dialysis duration, serum phosphate level, serum calcium level, iPTH, BUN, Cr (mg/d L), Albumin (mg/d L), Hb (g m%), renal function test, liver function test, blood glucose level, TG, total cholesterol level, LDL-C, HDL.C. After the end of trial, we will examine if cholestyramine has a significant efficacy on reducing serum phosphate level in adult hemodialysis patients.
Assessment of arteriovenous fistula patency loss which leads to av fistula failure and its relation to high serum phosphate level in chronic hemodialysis patients.
Research goals: To explore the views and baseline knowledge of children and young people (CYP) with CKD and their caregivers to develop effective phosphate educational materials (PEM), adapted for age, and acknowledging different learning styles
The project aims to generate an mHealth environment in which CKD patients are empowered in terms of the self-management of their hyperphosphatemia pathology, while under medical supervision. Such environment will allow nephrologists to inform patients beyond their traditional point-of-care and will allow patients to provide feedback on their condition in a timely manner that benefits the CKD collective. In this way we delve in a technological area that has been argued that remains underutilized within nephrology (1) and that should be perceived as an opportunity for CKD (2). In our work, we will build from recent related efforts in the control of hyperphosphatemia (3).