View clinical trials related to End Stage Renal Disease.
Filter by:By 2030 an estimated 2 million people in the US will need dialysis or transplantation. Insulin resistance and chronic inflammation are common in dialysis patients and have been linked to protein-energy wasting, the most important determinant of clinical outcome in this patient population. The investigators hypothesize that the skin and muscle tissue sodium accumulation is a critical mechanism by which chronic inflammatory response and insulin resistance, alone or in combination lead to protein energy wasting in hemodialysis patients. The investigators will test this hypothesis by studying dialysis patients and matched controls without kidney disease by examining tissue Na content, markers of inflammation and protein metabolism.
This study is intended to correct an important systemic deficit in the care of chronic kidney disease (CKD), VHA's fourth most common healthcare condition with high mortality and healthcare burden. Currently, many Veterans with CKD have poor awareness of their condition. This leads to suboptimal care. The investigators anticipate that the proposed comprehensive pre-end stage renal disease (ESRD) education (CPE) will enhance Veterans' CKD knowledge and their confidence in making an informed selection of an appropriate dialysis modality, and lead to an increase in the use of home dialysis (HoD) - an evidence-based, yet underutilized dialysis modality. Further, this study will allow us to examine whether such Veteran-informed dialysis choice can improve Veteran and health services outcomes. If successful, this study may deliver a ready to roll-out strategy to meet the CKD care needs of the Veterans and reduce VHA healthcare costs.
Every patient included in the study will undergo 1 conventional hemodialysis treatment, ie 1 study visit. During the conventional hemodialysis treatment lasting 4 hours, 2 blood samples will be taken at different time points (5 minutes after dialysis start and 240 minutes after dialysis = at the end of the dialysis session) to evaluate coagulation activation (TAT, PF1+2). Hemodialysis session parameters (arterial and venous pressure, TMP, OCM, BVM and prefilter pressure) will be noted at different time points (T5, T30, T60, T120, T180, T240). After discontinuation of the dialysis session, total cell volume will be measured using the Renatron II system® and the number of open fibers will be determined using micro-CT scanning.
Objectives: The aim of this study is to determine whether growth differentiation factor-15 (GDF15) and circulating neprilysin (cNEP) improve the diagnosis of congestive heart failure (HF) in patients on dialysis. Background: Dialysis patients are at increased risk of HF. However, diagnostic utility of NT-proBNP as a biomarker is decreased in patients on dialysis. GDF15 and cNEP are biomarkers of distinct mechanisms that may contribute to HF pathophysiology in such cohorts. Methods: We compare circulating concentrations of NT-proBNP, GDF15, and cNEP along with NEP activity in patients on chronic dialysis without and with HF, as diagnosed by clinical parameters and post-dialysis echocardiography. We use correlation, linear and logistic regression as well as receiver operating characteristic (ROC) analyses.
Prospective clinical trial to evaluate the efficacy of catheter lock with bicarbonate vs heparin in chronic hemodialysis patients. Two groups will be created, sodium bicarbonate lock group (experimental group) and heparin lock group (control group). Catheter pressures, flow, patency and infection outcomes will be compare between groups at different time points (30, 60 and 90 days).
To investigate the course and diurnal change of fatigue symptoms and haemodialysis related symptoms in chronic haemodialysis patients, its relation to haemodialysis treatment and the association with other factors by implementing an ecological momentary assessment procedure incorporated in a webapplication.
Pre-operative physical functioning has been acknowledged as a factor influencing post-operative complication risk, recovery progression and mortality risk. Current guidelines have yet to focus on the pre-operative period as a potential target to improve levels of physical functioning before renal transplantation. This project proposes the introduction of an exercise intervention pre-operatively to mitigate functional decline pre-operatively and improve post-operative outcomes following renal transplantation. We hypothesize that a home-based exercise prehabilitation program prior to kidney transplantation will result in improved functional outcomes including the 6-minute walk test, 60-second timed sit to stand, Fried Frailty Score, quality of life and fatigue. Further we hypothesize that prehabilitation will result in improved outcomes regarding post-operative recovery, complication rate, length of stay and mortality. Objectives A) Identify whether a prehabilitation program can mitigate functional decline pre-operatively regarding walking speed, strength, endurance, quality of life and fatigue B) To determine whether a tailored home-based exercise program prior to kidney transplantation is feasible with regards to adherence in patients with Chronic Kidney Disease (CKD) and End Stage Renal Disease (ESRD). C) To determine if a prehabilitation program results in improved clinical outcomes within one week following Kidney Transplantation (KT) as well as at 30 and 90 days including but not limited to time to first ambulation, time to first bowel movement, postoperative complications (Clavien-Dindo classification), mortality and length of stay. D) Quantify the differences described above, if any exist.
This study will investigate the effect of co-administration of Triferic and heparin on the ability to maintain circuit anti-coagulation and iron delivery when compared to control conditions when each treatment is administered via separate routes.
The main objective of this study is to determine the efficacy, safety and utility of fully automated closed-loop glucose control in the home setting over a 20 day period in adults with type 2 diabetes (T2D) requiring maintenance dialysis. This study builds on previous and on-going studies of closed-loop systems that have been performed in Cambridge in adults with type 1 diabetes in the home setting, and in adults with type 2 diabetes in the inpatient setting. This is an open-label, two-centre, randomised, cross-over study, involving two home study periods during which glucose levels will be controlled either by a fully automated closed-loop system or by participants' usual insulin therapy in random order. Each treatment arm is 20 days long with a 2-4 week washout period between treatments. A total of up to 40 adults with T2D requiring maintenance dialysis will be recruited through outpatient clinics or the dialysis unit, to allow for 32 completed participants available for assessment. Participants will receive appropriate training by the research team on the safe use of the study devices (insulin pump and continuous glucose monitoring (CGM) and closed-loop insulin delivery system). Participants in the control arm will continue with standard therapy and will wear a blinded CGM system. The primary outcome is time spent with glucose levels in the target range between 5.6 and 10.0 mmol/L as recorded by CGM. Secondary outcomes are the time spent with glucose levels above and below target, as recorded by CGM, and other CGM-based metrics in addition to insulin requirements. Safety evaluation comprises the tabulation of severe hypoglycaemic episodes.
Prospective, randomized, controlled clinical trial. The aim is to compare the effects of the peritoneal dialysis solution IPX15, containing glucose (0.5%), xylitol (1.5%) and L-carnitine (0.02%) as osmotic agents (comparable to the standard 2.5% glucose PD solution), for the nocturnal exchange with the PD solution IPX07, containing glucose (0.5%), xylitol (0.7%) and L-carnitine (0.02%) as osmotic agents (comparable to the standard 1.5% glucose PD solution), for the diurnal (short dwell) exchanges. Planned total recruitment is 40 patients with stable end-stage renal disease (ESRD) treated by continuous ambulatory peritoneal dialysis (CAPD). Treatment duration will be 4 weeks plus a 4 weeks safety follow up with no treatment.