View clinical trials related to Complication of Dialysis.
Filter by:The introduction of unfractionated heparin (UFH), which prevents clotting of the extracorporal circuit, was one of the key advances that led to the rapid development and expansion of hemodialysis services. However, anticoagulation during hemodialysis of the patient at high risk for bleeding remains a frequently encountered problem in both inpatient and outpatient dialysis practice. Streamline bloodlines are designed to eliminate blood-air contact. This is thought to help reduce heparin use and decrease clotting rates. The goal of this study was to prospectively examine impact of the Streamline airless blood tubing set, in an inpatient setting, on dialysis circuit clotting rates, anticoagulation use, and dialysis efficiency.
There is increasing evidence that renal replacement therapy (= continuous veno-venous hemodialysis) generates cerebral microembolism which is detectable on transcranial Doppler ultrasound. The aim of this study is to monitor patients with transcranial Doppler under two conditions: during hemodialysis and in a hemodialysis-free interval (in each period cerebral embolic load is detected during 30 minutes). The study hypothesis is that during hemodialysis the cerebral embolic load is significantly higher than in the hemodialysis-free interval.
The purpose of this study is to examine the effect of 6 months of daily beta-hydroxy beta-methylbutyrate (HMB) supplementation on the physical function and the health of bones, arteries and heart in hemodialysis patients.
Providing hemodialysis requires the use of an extracorporeal circuit which must be anticoagulated. Inadequate anticoagulation can result in the dialyzer clotting with decreased circuit blood flows, inefficient dialysis and even significant blood loss secondary to circuit clotting.Heparin has been traditional agent used to provide anticoagulation. Heparin has multiple adverse side effects that would be best avoided in acutely ill patients who are at risk for bleeding. Alternative means of providing anticoagulation include citrate based anticoagulation. Citrasate® is a heparin free anticoagulant alternative that has been FDA approved since 1999 and readily available for commercial use since 2001. Citrasate® utilizes citric acid instead of acetic acid for acidification; the presence of small amounts of citrate in the dialysate also provides the means for anticoagulation. The concentration of citrate is low (2.4meq/L) and thus has a minimal effect on serum calcium values. No calcium monitoring or infusion is indicated. The purpose of this study is to obtain further data on the use of Citrasate® in admitted pediatric patients who receive hemodialysis as part of their therapy for acute kidney injury.