View clinical trials related to Dialysis.
Filter by:Citrate anticoagulation is becoming the gold standard in dialysis in intensive care units. It is now accepted that citrate prolongs the life of filters with a lower risk of bleeding. However, the management of citrate is complex. Optimization is based on citrate flow, blood flow and the amount of calcium reinjected. Frequently the citrate level is sub-dosed.Currently, the fraction of excretion of citrate by the hemodialysis machine is unknown. Knowing this information would allow, if it is important enough, to add an additional parameter of citrate management by adapting the level of dialysis. The determination of citrate in an extracorporeal circulation circuit has already been performed and has been validated in the literature. We propose to perform the assay on subjects with the same starting parameters, in order to deduce the clearance of citrate.
1. Assessing how the rapid removal of salt and water by haemodialysis alters regional brain activity (by measurement of the brain blood oxygen level-dependent (BOLD) signal using functional MRI) during tasting of soup of differing salt concentrations. 2. Identify differences in the brain response to salt taste pre- and post-haemodialysis between haemodialysis patients who are either able or unable to control between dialysis weight gain
Ability and sensitivity of metabolomics analysis to highlight biomarkers or a score of biomarkers that will be able to identify those pediatric patients on peritoneal dialysis at high risk for possible peritoneal dialysis complications and mainly encapsulating peritoneal sclerosis
Patients who start haemodialysis usually retain some natural kidney function for months or years after starting dialysis. Even a small amount of this natural kidney function can be helpful in reducing the need for dietary and fluid restriction. There is also good evidence that retaining a small amount of natural kidney function may provide a survival benefit for patients on dialysis. Most patients who commence haemodialysis start three times per week for 3.5-4 hours per session, irrespective of the amount of natural kidney function they may have. An alternative approach used in some kidney units is to take account of the natural kidney function in prescribing the amount of dialysis. This may allow patients to start treatment needing to spend less time on dialysis or even to start just twice weekly. The amount of dialysis can be adjusted over time as natural kidney function declines. This is called "incremental haemodialysis". Both of these approaches are considered to be standard care although it is not known which approach is more beneficial to patients. There are some suggestions that the frequency of dialysis may influence the rate of decline of natural kidney function but this need to be tested in a large randomised study. To inform the design of such a study, a smaller scale feasibility study is required. We intend to randomise fifty new starters on haemodialysis with adequate natural kidney function into two groups - a group who will have dialysis prescribed in the standard fashion - three times weekly for 3.5-4 hours per session or a group who will have an incremental start beginning with twice weekly treatment. We will investigate how many patients have sufficient natural kidney function to be eligible, whether patients are willing to participate and continue in the study, compare the rate of loss of kidney function between groups, and ascertain whether this individualised dialysis approach is less intrusive to patients. The results will be used to design a larger definitive study.
The purpose of this investigation is to evaluate the safety of delivering continuous infusion (CI) vancomycin in pediatric CRRT by utilizing CI via by mixing the vancomycin into the CRRT solution(s). The secondary objectives are to describe the ability to achieve therapeutic vancomycin concentrations by utilizing this new delivery technique. Primary Objectives: To determine whether delivering continuous infusion vancomycin mixed into the CRRT solution can maintain therapeutic levels of drug in patients being treated for proven or suspected Gram-positive bacterial infections.
The purpose of this study is to evaluate the safety and efficacy of multiple intravenous doses of pegol-Sihematide in participants with chronic kidney disease (CKD) who are on dialysis.
Magnetic resonance imaging (MRI), as a non-invasive and non-contrast enhanced technique, has the potential to improve patient health care and management. The overall objective of proposed project is to: 1. develop, customize, and optimize anatomic and functional MRI methods, 2. explore the use of MRI methods to study CKD and evaluate post-transplant kidneys, and 3. investigate the potential of MRI in the diagnosis, prognosis, and monitoring of the progression of renal dysfunction. In addition to direct studies of the kidney, brain MRI studies will also be performed to identify the cerebrovascular and cognitive effects of chronic renal function deficiency and medical treatment (e.g. hemodialysis and immunosuppression). The brain and kidneys have similar vascular bed, and both are susceptible to vascular injury, which provides the pathological basis for the widely recognized association of reduced renal function with prevalent cerebrovascular diseases (CVDs) and cognitive impairment (CI). The MRI methods in the brain will be applied to explore the origins for widely observed CVDs and prevalent cognitive impairment (CI) in kidney disease patients.
The hypothesis is that switching calcium based phosphate binders to sevelamer carbonate will be associated with less inflammation including less atherosclerotic plaque inflammation (inflammation of the vessel walls).