View clinical trials related to End Stage Renal Disease.
Filter by:The objective of this study is to determine MK-0677 increases IGF-1 in patients with end stage renal disease (ESRD) on hemodialysis.
Background: 18B Glycyrrhetinic acid (active compound of Licorice) decreases serum potassium via enhanced renal potassium loss in healthy individuals and thereby inducing renal sodium retention and arterial hypertension.In dialysis patients this mechanism is disturbed and compensatory intestinal potassium secretion is enhanced. 18B Glycyrrhetinic acid is an inhibitor of 11B Hydroxysteroid dehydrogenase type 1 (11b HSD1). Inhibition of 11 b HSD1 offers a novel potential therapy to lower intracellular cortisol concentrations and thereby enhance insulin sensitivity. Hypothesis: Glycyrrhetinic acid decreases serum potassium by enhanced intestinal excretion in dialysis patients and increases insulin sensivity by inhibition of 11b HSD Methods: double blind, 6 month cross over trial comparing oral 18b Glycyrrhetinic acid with placebo in 24 nondiabetic dialysis patients. Endpoints: predialytic serum potassium levels, insuline sensitivity assessed by fasting glucose and fasting insulin concentrations
The purpose of this study is to evaluate whether cinacalcet + low dose vitamin D attenuates the progression of vascular calcification over one year, compared with a treatment regimen that includes flexible vitamin D dosing in the absence of cinacalcet, in subjects with chronic kidney disease receiving hemodialysis
To determine the safety and efficacy of a new formulation of Myfortic in combination with tacrolimus and thymoglobulin.
The specific aims are: 1. to evaluate the feasibility and acceptability of PC-ACP among African American patients with End-stage Renal Disease and their surrogates and 2. to examine preliminary effects of PC-ACP on patient and surrogate outcomes (patients' perceived quality of communication, surrogates' level of comfort in decision making for the patient, patients' difficulty in making choices, patient-surrogate congruence in goals of care, and patients' and surrogates' psychosocial/spiritual receptiveness) at one week following receipt of the intervention.
To assess the effect of Aranesp on the hemoglobin of CRI subjects who are recombinant human erythropoetin (rHuEPO)-naïve or converting from rHuEPO therapy
To assess the effect of Aranesp on the hemoglobin (Hgb) of CRI subjects who are recombinant human erythropoietin (rHuEPO)-naïve or converting from rHuEPO therapy.
To assess the effect of Aranesp on the hemoglobin (Hgb) of CRI subjects who are recombinant human erythropoietin (rHuEPO)-naïve or converting from rHuEPO therapy.
There is a rising incidence of kidney failure in the US, with poor outcomes and high cost. End-stage renal disease (ESRD) affects almost 375,000 individuals in the US at a cost of more than $14 billion per year. Despite advances in dialysis and transplantation therapies, kidney failure leads to poor outcomes, poor prognosis and high health care costs. Malnutrition and the underlying systemic inflammatory response developed during the course of chronic kidney disease, worsen during ESRD, and lead to adverse outcomes, increased morbidity and mortality. Muscle wasting, impaired functional capacity and poor quality of life are the most important factors associated with malnutrition and inflammation in renal failure. We have shown in pre dialysis patients with moderate chronic renal insufficiency that the anabolic effects of resistance exercise training result in significant improvements in protein utilization, nutritional status and functional capacity even in the context of anorexia and prescribed low protein diets. Therefore, we propose to develop, test and implement a progressive resistance exercise routine for ESRD patients during the hemodialysis session. By implementing such intervention, we hope to offer a therapeutic strategy that can be incorporated to the standard of care of ESRD patients by working in conjunction with the dialysis unit staff.
This study, done in collaboration with Johns Hopkins University School of Public Health in Baltimore, Maryland, will examine the role of genes in the development of atherosclerotic cardiovascular disease (CVD) in patients undergoing kidney dialysis. The rate of illness and death from CVD among patients on dialysis is extraordinarily high, accounting for about 50 percent of deaths. Blood levels of inflammatory markers are elevated in these patients, strongly predicting illness and death from CVD. The discovery of gene variants related to the inflammatory process in atherosclerotic CVD may lead to better medical treatments and improved survival in patients with end-stage kidney disease. Participants of John's Hopkins University's CHOICE (Choices for Healthy Outcomes in Caring for End-Stage Renal Disease) program are included in this study. Blood samples previously collected from these patients will be analyzed in the laboratory for genes that might be associated with the inflammatory process and atherogenesis.