View clinical trials related to End Stage Renal Disease.
Filter by:More than 80% of patients with end stage renal disease have hypertension; 70% of whom are poorly controlled using conventional Hemodialysis therapy. An expanded extracellular fluid volume and an increase in peripheral vascular resistance as a result of hemodynamic/trophic effects of an increased sympathetic nerve activity, angiotensin II, asymmetrical dimethyl arginine, and decreased nitric oxide are the most frequently quoted mechanisms contributing to hypertension in this population. The intermittent nature of conventional hemodialysis treatments (4 hours, 3 days/week) results in the majority of patients having a sustained expansion of the extracellular fluid volume that likely contributes to the activation of neurohormonal pathways. However, daily therapy including short daily hemodialysis (2 hours, 6 days/week) and nocturnal hemodialysis (6-8 hours, 5-6 days/week) improve or even normalize blood pressure. Short daily hemodialysis appears to improve blood pressure secondary to a reduction in extracellular fluid volume (7,8) whereas the improvement in blood pressure with nocturnal hemodialysis occurs by a reduction in peripheral vascular resistance (8,9,10). This is consistent with the Katzarski et al experience (7-8 hours, 3 days/week) and one randomized controlled trial in which blood pressure control was due to normalization of extracellular fluid volume in some patients and a reduction in peripheral vascular resistance in others. The majority of the studies in daily dialysis are observational, do not include a run-in period to optimize blood pressure management and have not explored the mechanisms of improvement in blood pressure in detail. We have designed a 9 month study to determine if the mechanism by which short daily hemodialysis is associated with an improvement in blood pressure control is secondary to changes in sympathetic nervous system activity and/ or extracellular fluid volume. Additionally we would like to explore the potential impact of short daily dialysis, compared to conventional dialysis, on markers of inflammation and oxidative stress in detail.
The current study is initiated in order to assess the impact of a PD solution containing L-carnitine on insulin sensitivity measured by a hyperinsulinemic euglycemic clamp.
The current study is initiated in order to assess the impact of a PD solution containing L-carnitine on insulin sensitivity evaluated by measuring insulin requirement.
Addition of Heparin to the Catheter Lock Solution (CLS): Taurolock-TM will improve the vascular patency compared to Taurolock-TM alone , in hemodialysis patients with Tunneled Cuffed Catheter(TCC) as vascular access.
To study whether peroxisome proliferator-activated receptor-gamma activation in peritoneal dialysis patients will reduce inflammation, atherosclerosis, calcification and improve survival of peritoneal dialysis patients
Pruritus is a major disorder among the skin derangements in advanced renal failure. Recent information suggests that interactions between dermal mast cells and distal ends of nonmyelinated C fibers may be important in the precipitation and regulation of the sensory stimuli.Patients having uremic pruritus have been noted to have increased levels of plasma histamine and tryptase as well as increased numbers of dermal mast cells.Cromolyn sodium is a mast cell stabilizing agent that inhibits degranulation of mast cells and the release of histamine, tryptase, and leukotrienes. It is hypothesized that oral cromolyn sodium may attenuate uremic pruritus by decreasing serum tryptase level.
The purpose of this study is to estimate how quickly cognitive status and functional status in older patients on hemodialysis declines.
The purpose of this study is to identify incidence of Chinese herb nephropathy in a medical center
Pomegranate juice (PJ) consumption by hemodialysis patients will reduce the oxidative stress and the incidence of infections, cardiovascular events and mortality.
Background: Recent data indicate that home nocturnal hemodialysis (8 hours of hemodialysis at home for 5-6 nights per week) may have substantial cardiovascular benefits, including regression of left ventricular (LV) hypertrophy, improved LV ejection fraction and blood pressure control. Nevertheless, this dialysis modality is only feasible in a highly-selected minority of ESRD patients, who can self-manage their dialysis treatment at home. In-centre nocturnal hemodialysis (INHD), administered as 7-8 hours of hemodialysis in hospital for 3 nights per week, represents an appealing and practical alternative. As this is a novel form of therapy, there has been no definitive study examining the cardiovascular impact of INHD to date. Objective: To determine the effects of INHD on LV mass, global and regional systolic and diastolic function, and other cardiovascular biomarkers in patients with ESRD. Hypothesis: Conversion from conventional hemodialysis to INHD is associated with favourable changes in cardiac structure and function in patients with ESRD. Rationale for Using Cardiac MRI: Cardiac magnetic resonance imaging (CMR) has emerged as the new gold standard for measuring LV mass, volume, global and regional myocardial function. Its accuracy and precision make it the imaging modality of choice for studying the small number of patients currently undergoing or awaiting INHD. Study Design and Population: This is a prospective cohort study of adult ESRD patients who are currently receiving conventional in-centre hemodialysis and will be converted to INHD. Patients will be managed as per standard clinical practice (e.g. blood pressure, anemia management) established for the INHD program, and no therapeutic intervention will be performed as part of this study. All eligible patients will undergo two serial CMR examinations: within 2 weeks prior to conversion and at 52 weeks following conversion to INHD. We also plan to recruit a population of control patients who have elected to remain on conventional HD. These individuals will be asked to undergo the same set of investigations at baseline and 12 months thereafter. Outcome: The primary endpoints are the temporal changes in LV mass and size, global and regional diastolic and systolic function at 52 weeks after conversion to INHD, as measured by cardiac MRI. Secondary endpoints include changes in myocardial tissue characteristics, blood pressure, mineral metabolic parameters, anemia control, serum troponin, norepinephrine, brain natriuretic peptide, markers of inflammation and quality of life. Significance: The provision of an enhanced dialysis regimen has emerged as the most promising avenue through which to modify the dismal cardiovascular outcomes in patients receiving chronic hemodialysis. INHD represents a means of administering such therapy to a broad spectrum of dialysis patients for whom home therapies would not be feasible. The proposed study will be the first to precisely define the cardiac impact of INHD using CMR. The findings may justify large randomized controlled trials evaluating clinical outcomes. If INHD is proven to be effective, it will have a major impact on the management and outcome of many patients with ESRD in Canada.