View clinical trials related to Acute Kidney Injury.
Filter by:We hypothesize that a nutritional supplementation with higher than standard protein content (2.0 gm/Kg/day vs 1.4 gm/Kg/day) will result in improved whole-body net protein balance when administered to critically ill patients with acute renal failure (ARF).
Patients with pre-existing kidney disease are at high risk of acute renal failure when exposed to radio-contrast dyes, for example during a cardiac angiogram. The investigators hypothesize that an infusion of saline + furosemide + mannitol will reduce rates of contrast-induced nephropathy when compared with saline infusion controls.
Determination of the concentration of uremic toxins of sepsis patients with or without acute kidney failure compared to the concentrations of uremic toxins of chronically uremic patients
Contrast nephropathy (CN) remains a common complication of radiographic procedures and an important cause of hospital-acquired acute renal failure. Only hydration with saline is uniformly accepted and used in clinical practice as a cornerstone for the prevention of CN. But the optimal preventive strategy for CN is not known. Sodium bicarbonate might be even more effective than hydration with sodium chloride for prophylaxis of CN. Therefore the aim of the study is to evaluate the efficacy of two regimens of sodium bicarbonate compared with a prolonged infusion of sodium chloride in the prevention of CN. Primary endpoint: Decrease in glomerular filtration rate (GFR) within 48 hours.
Patients with abnormal kidney function are at increased risk for complications following heart surgery, including worsening kidney function possibly requiring dialysis, a prolonged stay in the critical care unit and hospital, and the increased risk of death. Prior attempts at kidney protection for heart surgery patients have had mixed results. Two medicines, fenoldopam and N-acetylcysteine, have been shown to protect kidney function in other circumstances that cause kidney stress. The purpose of this study is to determine whether these medications will help to maintain the function of diseased kidneys during heart surgery.
Background:Plasma exchange has been suggested to be of theoretical benefit in the treatment of acute renal failure at the onset of multiple myeloma. Two small-randomized trials provide conflicting evidence. Objective: To assess the effect of 5 to 7 plasma exchanges in the treatment of acute renal failure at the onset of multiple myeloma. Design: Randomized controlled trial with 4 strata (chemotherapy and dialysis dependence) from 1998 to 2004. Setting: Hospital plasma exchange units in 14 major Canadian medical centers. Participants: 92 voluntary patients between the ages of 18 to 81 with acute renal failure at the onset of myeloma after volume repletion and hypercalcemia. Intervention: 5 to 7 plasma exchanges of 50 ml/Kgm of 5% Human Serum Albumin in first 10 days plus conventional therapy versus conventional therapy alone. Measurements: The primary outcome is a composite measure of death, dialysis dependence or Modification of Diet in Renal Disease Study glomerular filtration rate (MDRD GFR) < 30mg/min/1.73 meter squared at 6 months.
The purpose of this study is to evaluate the renal perfusion depending on the MAP.
The purpose of this trial is to study the use of nesiritide in thoracic aneurysm repair to prevent acute renal failure. The study hypothesis: Nesiritide, given prophylactically prior to surgery may prevent acute renal failure requiring dialysis and/or decrease mortality.
This is a multi-center, prospective, randomized, parallel-group trial of an intensive strategy vs conventional strategy of renal replacement therapy for the treatment of acute renal failure secondary to acute tubular necrosis in critically ill patients. The primary hypothesis is that the intensive strategy will reduce 60-day all cause mortality by 10% compared to the conventional strategy - i.e.,a reduction from 55% in the conventional arm to 45% in the intensive arm. Secondary outcomes are 60-day in-hospital all-cause mortality, 1-year all cause mortality, and recovery of renal function by day 28. The study will recruit 1164 patients over a period of 3 years, 8 months and each patient will be actively followed for 60 days.
The purpose of this study is to find substances in the blood and urine that indicate that a person has kidney damage. It will identify proteins found only in patients with acute kidney failure but not in normal healthy people or in patients with volume depletion. Adults and children who are at least 3 years old who fall into one of the following four categories may be eligible for this study: 1. Are healthy and have normal kidney function 2. Have volume depletion (this condition differs from acute kidney failure in that it is easily treated with fluids) 3. Are at high risk of kidney failure 4. Have acute kidney failure (kidney shutdown) All study participants will have a history and physical examination. Up to four blood samples of 3 tablespoons each will be taken for laboratory analysis. Urine will be collected for analysis and to measure urine output. The participants length of stay in the study varies. People with normal kidney function will be in the study for 1 day and patients with volume depletion will be studied 3 days. The length of hospitalization of patients at high risk of kidney failure or in acute kidney failure will depend on the patient s condition and medication requirements. The results of this study may lead to the development of earlier and more accurate methods for diagnosing acute kidney failure. With earlier detection, treatment could be started earlier, possibly preventing further damage and helping recovery of injury that has already occurred.