View clinical trials related to Hemodialysis.
Filter by:This is a prospective, multicenter, open label, non-randomized, cross-over study. Subjects will be enrolled in the trial for approximately 18 weeks and will use the DIMI RRT System for their dialysis treatments for all study phases, according to the schedule outlined below. The schedule will consist of four phases and the number of sessions per week will be prescribed the same throughout Phase 1 to 4.
The current study will evaluate the plasma pharmacokinetics of amlodipine in a cohort of 8 adult volunteers who are receiving regular hemodialysis treatment (HD) 3 days a week for 4 hours each day and have been taking a total daily dose of 5-10 mg of amlodipine besylate for >30 days as part of their usual care. Blood sampling will occur over 13 hours, with frequent sampling during HD and in the 4 hours after termination of HD treatment. The 8 subjects will all receive their prescribed total daily dose of 5-10 mg 5 hours prior to HD treatment. The pre-HD sample will also be sent for pharmacogenomics genotyping. Safety and pharmacodynamic assessments (blood pressure (BP) and heart rate (HR) assessments) will be performed throughout the study. Axiom Precision Medicine Research Array (Affymetrix, Santa Clara, CA) will be used to evaluate genotype of CYP3A4. CYP3A4 phenotype will be evaluated using the ratio of parent drug to metabolite. Non-compartmental analyses will be performed to compare maximum concentrations (Cmax), time to maximum concentration and area under the curve from time 0 to the last measurable sample (AUClast) between the two phases. Compartmental analyses will be performed to construct a model to explain time-dependent changes in amlodipine clearance. Monte Carlo simulations will be performed to compare amlodipine pharmacokinetic profiles on and off HD.
The study will be performed in two parts: 1) The pharmacokinetic (PK) part and 2) The appetite and nutritional evaluation part. The PK part of study will be conducted in open label manner on 10 end stage kidney disease (ESKD) patients receiving maintenance hemodialysis (MHD) treatment. For the PK part, a starting dose of cannabis oil -1 drop of 3% cannabis oil once a day [each drop contain 1.2 mg CBD (cannabidiol) and 1.2 mg of ∆9-THC (∆9-tetrahydrocannabinol)], was judged to be safe for a first-in-MHD patient's administration. Escalation to the next higher dose and any dose adjustments of the next dose levels will be based on safety and tolerability results of the previously administered dose and available PK data of previous dose groups. Once the first dosage proved to be safe, there will be a 2 fold increase from the first dose level (2 drops once a day) to the second dose level. The dose levels will be increased by 2-fold from the previous dose level, until basal hunger and prospective consumption ratings assessed by the visual analogue scale (VAS) will increase at least by 10 mm between screening and the study visits (change-from-baseline) . PK parameters will be evaluated after first dosage administration and after dosage increased. The appetite and nutritional evaluation part of study will be conducted as a 3-month, double-blind, parallel-group, placebo-controlled, single center study. The study population will include 30 ESKD patients receiving MHD treatment with different degrees of protein-energy wasting (PEW) defined as malnutrition-inflammation score (MIS) above 6. A total of 30 subjects will be randomized to treatment with either cannabis oil or matching placebo.
An important reason for the costs of hemodialysis treatment in China are expensive is the hemodialysis machine and related products mainly rely on imports. Hemodialysis machine is the basis equipment of the hemodialysis treatment. After years of research and development, China has had the domestic hemodialysis machine. However, due to the lack of control studies of domestic and imported hemodialysis machine, thus causing the domestic hemodialysis machine promotion has been hindered. The aim of this study is to verify the quality and safety of domestic hemodialysis machine.
This is a non randomized crossover trial investigating whether changing the pattern of bicarbonate administration during hemodialysis will result in the more efficient filtration of highly protein bound solutes. The experimental group will be dialyzed with low bicarbonate dialysate for the first half of dialysis then switched over to normal bicarbonate dialysate for the second half. The control group will be dialyzed entirely with normal bicarbonate dialysate. The two groups will switch one week late and patients will serve as their own matched controls for a completely standard dialysis and one that is split into two halves with different bicarbonate concentrations.
Cardiovascular disease is the primary cause of death in patients with end stage renal disease (ESRD). New research suggests that the high risk of death may be partly due to high levels of fibrosis and a loss of small blood vessels in the heart of patients with dialysis-dependent ESRD. This study is designed to compare the effects of two different drugs, spironolactone and L-arginine, with placebo on structure and function of the heart in individuals with dialysis-dependent ESRD.
The goal of this study is characterize the changes in bacterial diversity of the nares of hemodialysis patients. Another goal is to determine when hemodialysis patients become colonized with the bacteria Staphylococcus aureus, as nasal colonization with S. aureus is a major risk factor for invasive infection in hemodialysis patients. Fifteen subjects will be recruited into the study. Nasal swabs will be collected every month for six months or until one month after S. aureus colonization in order to determine any changes in the bacterial communities of the nose. Clinical data will also be collected to evaluate the possible influence of external factors on changes in the microbial communities in the patients' noses. This study will provide preliminary data on whether oral- and/or nasal-administered probiotics can eliminate nasal carriage of S. aureus.
Low molecular weight heparin (LMWH) provides a safe and effective alternative to UFH for hemodialysis anticoagulation. While unfractionated (UF) heparin has been implicated in hyper-lipidemia, the effect of LMWHs on the lipid profile in non-diabetic patients on chronic hemodialysis remains controversial. The effect of LMWH in diabetic patients, a high risk group for developing hyper-lipidemia and cardio-vascular disease, has not been studied. The study intends to examine the long-term effects of the replacement of UFH by LMWH (tinzaparin sodium) on cardio-vascular outcomes and on lipoprotein profiles in a large group of diabetic patients stable on HD.