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Renal Failure clinical trials

View clinical trials related to Renal Failure.

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NCT ID: NCT00748904 Withdrawn - Liver Cirrhosis Clinical Trials

Rifaximin Versus Lactulose in Renal Failure

Start date: June 2008
Phase: Phase 4
Study type: Interventional

The purpose of this study is to evaluate patients with cirrhosis of the liver and renal failure and determine if the administration of rifaximin as compared to lactulose is associated with less frequent and/or slower progression to severe hepatic encephalopathy. If one is associated with lower blood ammonia levels. And, if one is associated with lower breath hydrogen and methane levels.

NCT ID: NCT00466882 Withdrawn - Obesity Clinical Trials

Use of the INAMED LAPBAND System to Reduce BMI's in Obese Renal Failure Patients

Start date: October 17, 2005
Phase:
Study type: Observational

The purpose of this study is to assess the use of this Lap-Band system for the purpose of promoting weight loss in renal failure patients who do not qualify as transplant candidates because of excessive BMI's

NCT ID: NCT00313807 Withdrawn - Renal Failure Clinical Trials

Study of Intravenous Amino Acid Infusion to Prevent Contrast Dye Mediated Renal Damage

Start date: November 2005
Phase: Phase 2
Study type: Interventional

Exposure to radiographic contrast dye during coronary angiography is well known to cause either transient decreases in renal function or acute renal failure. Although the overall incidence is low, acute renal failure occurs most frequently in patients with both diabetes and chronic renal failure where the average reported incidence is upwards of 20%. The etiology of contrast-induced nephropathy is related to acute decline in renal blood flow following dye exposure resulting in ischemic injury at the level of the medulla. The development of acute renal failure following radiocontrast dye administration is significant because it contributes to morbidity and mortality in patients at risk. The administration of amino acids, either through intravenous infusion or a protein meal, results in a substantial increase in renal plasma flow (RPF) and glomerular filtration rate (GFR). In both healthy subjects and in those with chronic renal failure, an amino acid infusion produces a 20% rise in GFR and effective RPF. We hypothesize that the 20% rise in effective RPF and GFR following an amino acid infusion will counteract the radiocontrast dye-induced vasoconstriction and reduce the renal toxicity of contrast medium in a group of high-risk patients.