View clinical trials related to End-Stage Kidney Disease.
Filter by:This study will evaluate the efficiency of dietary intervention on intradialytic weight gain. Uniric hemodialysis patients without serious dietary complications, who accumulate above 2.5 kg (or above 4%) of their dry weight, will undergo a series of dietary consultations for sodium restriction. One month after the intervention, their intradialytic weight accumulation will be measured.
Peritoneal Dialysis (PD) has been the main method of treatment for Thai End-Stage Renal Disease (ESRD) patients under the "PD First" policy of the Universal Coverage (UC) scheme. The increased demand has resulted in not only supply chain logistical problems, but also product quality concerns. Peritonitis, the main complication and checklist cause of failure in Continuous Ambulatory Peritoneal Dialysis (CAPD) patients, could be caused by a product defect. This cluster randomized trial will be conducted in 22 randomly selected PD centers in Thailand to assess if a checklist intervention could reduce peritonitis rate and increase the number of checklist product defect report.
Peritoneal Dialysis (PD) is a technique for treating kidney failure where fluid is instilled into the body's peritoneal cavity. Fluid and solutes travel across the peritoneal membrane, and the function of this membrane is critical to successful PD. Studies have shown that certain demographic and clinical variables explain a very small part of the variability in baseline function. This study will further explore the common genetic variants that determine the baseline peritoneal membrane function in patients starting treatment with PD and change in function upon treatment . This study will incorporate data from subjects' first ever peritoneal equilibrium test (PET), changes in the transfer of water across the peritoneal membrane over time, demographic information, and results from laboratory analysis of DNA, blood, and dialysate. The investigators hope that this study will provide information on the biological pathways that account for variability in the peritoneal membrane. This could ultimately lead to the development of biomarkers to identifying individuals at risk for decline in peritoneal membrane function over time and/or be used to identify novel therapeutic targets to preserve or enhance membrane function. Identifying the biological pathways will also increase the understanding of vascular biology, angiogenesis, and fibrosis that could be applied to other tissues and other diseases.
People with failed kidneys need an artificial kidney machine (called dialysis) to remove toxins and extra fluid from the body. Most patients receive dialysis treatments at a hospital three times a week. During treatment, a patient's blood pressure may drop, causing dizziness and muscle cramping. Repeated drops in blood pressure can also injure the heart and brain. Over time, this can lead to heart attacks, strokes, and sometimes death due to cardiovascular causes. New research shows that cooling the temperature of the dialysis fluid (called dialysate) can reduce heart and brain injury. In most hospitals, all patients' dialysate temperature is set at 36.5 ºC (to match body temperature). In a study of 73 patients, we showed that reducing the dialysate temperature by 0.5 ºC below body temperature protected the heart and brain from injury [1,2]. We now want to test this simple, safe, low-cost intervention in a large study with ~7500 dialysis patients in Ontario. We can lower the dialysate temperature on dialysis machines in Ontario at no added cost. This intervention has the potential to reduce many hospitalizations and deaths in Ontario, and relieve suffering in patients with kidney failure.
This is a prospective, randomized, double-blind, parallel group trial to assess the efficacy and safety of intravenous dextrose 5% solution compare with normal saline (standard care) in wash back procedure during haemodialysis in patients with end stage renal failure (ESRF) with respect to systolic blood pressure control over 3 months period. The primary objective is to establish efficacy of 5% dextrose solution compared with normal saline (0.9% sodium chloride solution) with respect to systolic blood pressure control in subjects with end stage renal failure (ESRF) on regular hemodialysis. Secondary objectives include monitoring the change in body weight, thirst level and body fluid volume.
The objective of this study is to evaluate efficacy and safety outcomes following use of the Sirolimus-eluting Collagen Implant (SeCI) in subjects undergoing surgical creation of an AV fistula for vascular access (index procedure).
This study will assess the safety and efficacy of IdeS in the transplantation setting. Each patient will receive one dose of IdeS. If the crossmatch test is negative at the time of transplantation, the patient will be transplanted with a kidney from a deceased or living donor. The starting dose will be 0.25 mg/kg BW, given as a single intravenous infusion prior to surgery.
A prospective single-arm well-controlled study to evaluate the safety and effectiveness of a less invasive means of establishing vascular access to facilitate dialysis in patients with end stage renal disease.
Living donor kidney transplantation (LDKT) is the optimal treatment for end-stage kidney disease (ESKD). But, the evaluation process for a kidney transplant is lengthy, time consuming, and burdensome to the patient. Also, race disparities exist in rates of transplant evaluation completion, transplantation, and LDKT. Our previous and ongoing NIDDK-funded research indicates that cultural factors (i.e., perceived discrimination in health care, religious objection to LDKT), transplant knowledge, and demographic characteristics (e.g., age, education, income) independently and significantly predict time to complete transplant evaluation. In December 2012 the investigators' transplant center implemented a one-day streamlined evaluation process, dubbed Kidney Transplant Fast Track (KTFT), but it has not been evaluated for efficacy or cost effectiveness. Thus, the investigators propose a quasi-experiment to determine the efficacy and cost-effectiveness of the KTFT (n=1030) compared to historical controls (n=1140) who were recruited for the investigators' current NIDDK study to increase transplant rates. At the same time, the investigators will conduct a randomized controlled trial (RCT) targeting vulnerable patients with the educational component of the TALK intervention (Talking About Live Kidney Donation) to increase LDKT. For both components of the proposal, the investigators will target vulnerable populations because they are most at risk for extended evaluation times and lower rates of LDKT. Using CONSORT standards, participants will be randomly assigned to TALK (n=515) versus no-TALK (n=515) conditions and undergo two interviews at pre-transplant work-up and at completion of transplant evaluation in order to: (1) test whether KTFT and TALK will reduce transplant evaluation time, and increase rates of transplant and LDKT in members of vulnerable groups; (2) determine whether engaging in a streamlined and coordinated-care evaluation experience within the transplant center reduces negative perceptions of the healthcare system; and (3) test the cost effectiveness of the KTFT with TALK relative to standard practices. The results of this two-pronged approach will help pave the way for other transplant centers to implement a fast-track system at their sites, improve quality of care by transplanting a larger number of vulnerable patients, and may help address stark race/ethnic disparities in rates of LDKT.
Peritoneal fibrosis is one of the major causes of technical failure in patients on peritoneal dialysis (PD) for long period of time. Although the exact mechanisms of peritoneal damage during PD still remain unclear, generation of Endoplasmic reticulum (ER) stress may be responsible for progressive membrane dysfunction. Ursodeoxycholic acid (URSA) is a powerful inhibitor of ER stress to protect peritoneal fibrosis in peritoneal dialysis in the investigators in-vitro study. In this study the researchers investigated the hypothesis that URSA protect peritoneal membrane damage.