View clinical trials related to Chronic Kidney Disease.
Filter by:This is an observational longitudinal study which will collect routine demographic, laboratory and clinical parameters of patients with chronic kidney disease (CKD) in the Silesian and Warmia and Mazury Regions (Poland) aimed at predicting incident cardiovascular disease and cardiovascular and renal events using machine learning and artificial intelligence approaches. There will be a subgroup analysis of patients with diabetes and CKD.
The purpose of this research study is to evaluate the impact of clinical pharmacist interventions on treatment outcomes, health-related quality of life (HRQoL),and medication adherence among chronic kidney disease patients. Pharmacist's intervention aim to answer: 1. How a clinical pharmacist intervention program impact medication adherence in chronic kidney disease? 2. To assess how patients' counseling and medication adherence impact patient health-related quality of life? 3. How a clinical pharmacist intervention program improves clinical outcomes of chronic kidney disease patients?
This study was to explore the impacts of participating in "ACP board game for life" on death preparation, death anxiety, end-of-life care preferences, and intervention perception in stage 4-5 CKD patients with advanced chronic kidney diseases in a medical center.
This study is a randomised controlled intervention trial for patients with chronic kidney disease who are on the waiting list for a kidney transplantation (n=200). The aim of this study is to test the effectiveness of intensive individual nutritional and exercise support combined with comprehensive rehabilitation before transplantation in comparison to a control group.
This is a multicenter, non-randomized, open-label, parallel-controlled study. The main objective is to evaluate the safety and pharmacokinetics of HRS-1780 in subjects with mild and moderate renal impairment versus healthy subjects, and to provide a basis for dose selection of HRS-1780 in patients with chronic kidney disease.
This is a single-center, double blind, randomized, parallel-arms study designed to investigate the effects of a six-month treatment with the SGLT2i dapagliflozin on markers of kidney senescence, inflammation and tubulointerstitial damage compared to placebo. These mechanisms of renal damage will be investigated in proximal tubular epithelial cells (PTECs) isolated from urine from patients with CKD with or without T2DM and in renal biopsy specimens in a subgroup of patients with diabetic kidney disease.
The focus of this study is on vascular access for hemodialysis. This is a randomized clinical trial testing 3 educational approaches to help patients with advanced chronic kidney disease prepare for placement of hemodialysis vascular access. Study participants will each be assigned to one of the 3 approaches: 1) "Education", in which participants will be given a video and brochure that provide information about the types of vascular access and what can be expected before and after the vascular access is placed, 2) "Education-Plus", in which participants will be given the video and brochure and will also have sessions by telehealth with a motivational interviewing coach to provide additional support around vascular access placement, and 3) "Usual Care", in which participants will have the usual education provided by their kidney doctor and clinic staff just as if they were not in the study. Participants in all 3 groups will be asked to complete questionnaires by telephone and may be invited to be interviewed about their experience with the study intervention at the end of the study. Study participation will last for about 12 months, with most of the study activities taking place during the first 3 months.
The purpose of this pilot interventional study is to collect preliminary data on the application of a transcutaneous auricular vagal nerve stimulation (taVNS) device in patients with chronic kidney disease (CKD). This data will enhance understanding of the short-term safety, tolerability and effects of this novel therapeutic approach in the setting of CKD. The primary aims are to investigate the feasibility of the protocol and generate preliminary signals of efficacy and tolerability for two different doses of vagal nerve stimulation. The pilot estimates will be used to design a larger scale study that may lead to potentially targeted interventions to reduce cardiovascular (CV) mortality in the CKD population.
Roxadustat is a licensed medicine to treat anemia in adults with chronic kidney disease (CKD). Anemia is a low level of red blood cells. Current treatment for anemia is to have injections of medicines called erythropoietin stimulating agents (also known as ESAs) to help the bone marrow make more red blood cells. These are often given together with iron. This treatment is also available to children and teenagers with CKD. However, there are some safety concerns with ESAs. Also, as roxadustat is taken orally, this may be another option for treating anemia in children and teenagers with CKD. In this study, children and teenagers with CKD and anemia will take roxadustat for up to 52 weeks to treat their anemia. The main aim of the study is to learn how roxadustat affects anemia in children and teenagers with CKD. This is an open-label study which means the children and teenagers in the study and the clinic staff know they will be taking roxadustat. In this study, the children and teenagers with CKD who need treatment for anemia can take part. Those currently being treated with an ESA will be switched to roxadustat. Those who have not been treated with an ESA can start on roxadustat straight away. All children and teenagers in the study will take roxadustat 3 times a week for up to 52 weeks (1 year). They will start on a fixed dose of roxadustat for 4 weeks. Blood samples will be taken regularly to check hemoglobin levels. The roxadustat dose may be changed if the blood levels of hemoglobin are too high, too low, or change too quickly. After 4 weeks the dose may be changed, if needed, to keep blood levels of hemoglobin in the blood to just below the normal range. Firstly, teenagers will take roxadustat. 10 teenagers will take their fixed dose of roxadustat for 4 weeks. They will give blood samples to help the researchers work out the most suitable dose for the rest of the teenagers in the study. When the rest of the teenagers start taking roxadustat at the most suitable dose for teenagers, 10 children will take roxadustat for 4 weeks. These 10 children will give blood samples to help the researchers work out the most suitable dose for the rest of the children in the study. Then, the rest of the children will take roxadustat at the most suitable dose for children. There will be many clinic visits during the study. Overnight hospital stays are not expected. There will be 1 visit every 2 weeks for the first 4 weeks of taking roxadustat, then every 4 weeks until the end of treatment. Finally there is 1 visit 4 weeks after treatment has finished. During most visits, the children and teenagers will have their vital signs checked (blood pressure, body temperature and heart rate). Fluid status (how much water is in the body) will also be checked for those who need dialysis. The children and teenagers will also have blood tests and the study doctors will check for any medical problems. The children and teenagers will have a medical examination before their first dose of roxadustat and again at about 24-week (6-month) and 52-week (13-month) visits. They will have an electrocardiogram (ECG) before their first dose of roxadustat and again at the 12-week, 24-week, 36-week, and 52-week visit. They will also have urine tests at the 4-week, 24-week and 52-week visits. At the 52-week visit, the children and teenagers will also have blood tests for hemoglobin and iron levels. The study doctors will also check for any medical problems.
The most accurate way to determine intra-aortic BP is to obtain invasive measures by vascular catheterization, which is not possible to perform routinely during the regular follow-up of patients. However, in recent years, devices used to estimate central BP have been designed and approved for clinical use. These devices can determine aortic BP in a non-invasive way using various techniques and algorithms and offer a high degree of precision when compared to invasive measurements of intraaortic BP. On the other hand, certain characteristics specific to the different devices mean that the central BP values obtained may not be interchangeable. It is therefore important to determine the degree of agreement of central BP values obtained using commercially available devices. This study aims to determine the degree of agreement between central BP measurements obtained using 4 devices commonly used to measure central blood pressure, i.e. Mobil-o-Graph NG (IEM, Germany), WatchBP Office (Microlife, Taiwan), Oscar 2 with SphygmoCor inside (SunTech, USA) and BP+ (Uscom, Australia). These four devices record the shape of the pulsatile wave and then derive the central BP using an algorithm. The main differences between these devices lie in this algorithm, or "transfer function,", which is unique to each and the calibration used. All use a brachial cuff to capture the pulse waveform and can easily be used in clinical practice.