View clinical trials related to Acute Renal Failure.
Filter by:The purpose of this study is to determine the effect of a systemic infusion of angiotensin II on haemodynamics and urine output in critically ill patients with severe sepsis/septic shock and acute renal failure. It will also help determine the feasibility of conducting a definitive and adequately powered randomised controlled trial of angiotensin II in such patients that would assess mortality and need for renal replacement therapy as endpoints.
This is a Phase 1, randomized, double-blind, dose escalation, safety and pharmacokinetic study. The study will be conducted in approximately 10 sites in the United States. Up to 48 patients at high risk for AKI (CCF score ≥ 5 OR an estimated GFR (eGFR) <60 mL/min/1.73 m2) who have undergone major cardiovascular surgery will participate. Patients will receive a single IV injection of I5NP or placebo following cardiovascular surgery. I5NP will be administered 4 hours (+/- 30 minutes) following removal of the cardiopulmonary bypass machine (CBM). The duration of the study is approximately 44 days, inclusive of a 14 day screening period. Patients will be contacted by phone at 6 and 12 months for follow-up questions. Patient visits are screening, day of surgery, hospital in-patient Days 1, 2, 3 - 5 and Day 7 or hospital discharge. Safety follow-up will continue until 30 days post-surgery. 2 phone calls will be made at 6 and 12 months after date of surgery.
Pilot study aiming to assess the effect of two doses of rhu EPO on urine NGAL concentration and on serum cystatin C and creatinine levels in critically ill patients at risk of ARF.
This is an observational study assessing the impact of conventional dose iodinated contrast on the renal function of advanced chronic kidney disease patients undergoing arteriovenous fistula evaluation using a standard sodium bicarbonate prophylaxis protocol. In addition, this model allows for pre and post procedure measurements of kidney function, providing a unique opportunity to assess the utility of novel biomarkers for contrast-induced kidney injury. Our primary hypothesis is that there will be no change in serum creatinine post-procedure when using a standard sodium bicarbonate prophylaxis protocol. Our secondary hypothesis is that there will be no change in urinary kidney-injury marker-1 (KIM-1) post-procedure using a standard sodium bicarbonate prophylaxis protocol. In addition, we will assess the impact of different patient characteristics on the development of contrast-induced kidney injury, such as diabetes, coronary artery disease, hypertension, and angiotensin converting enzyme inhibitor therapy.
Patients undergoing cardiac surgery could develop postoperative acute renal failure requiring renal replacement therapy. Fenoldopam, already used for patients with hypertensive emergencies, could improve renal function in critically ill patients with or at risk for acute renal failure.
We propose to determine the acute metabolic effects of intensive insulin therapy when administered to AKI patients with a particular focus on its effects on protein metabolism. We hypothesize that the degree of insulin resistance correlates with protein catabolism in critically ill patients with AKI, and that intensive insulin therapy will result in substantial reductions in both whole-body and skeletal muscle protein breakdown thereby improving overall protein balance. We also hypothesize that this therapy will have favorable effects on the inflammatory and oxidative stress profile of patients with AKI. The metabolic response to these interventions will be assessed through stable isotope infusion techniques, allowing for the most precise assessment of protein and energy homeostasis.
In the last three decades, the mortality associated with acute renal failure (ARF) in the ICU has remained unchanged at greater than 50%, despite improvements in dialysis technology. The primary objective is to determine whether Continuous Veno-Venous Hemodiafiltration (CVVHDF) using an ultrafiltration rate of 35 ml/hr/kg (high dose) leads to a greater reduction in all-cause ICU mortality compared to standard CVVHDF using an ultrafiltration rate of 20 ml/hr/kg.
The purpose of the study is to compare the effect of fenoldopam and ketanserin on kidney function preservation in patients at high risk for renal failure after cardiac surgery. Acute, oliguric renal failure develops in up to 2% of patients undergoing cardiac surgery. Some of them require renal replacement therapy and despite that mortality in this group exceeds 30-60%. The investigators await that the use of fenoldopam and/or ketanserin may decrease the rate of severe renal failure.
This is a Phase 1, randomized, double-blind, dose escalation, safety and pharmacokinetic study. The study will be conducted in approximately 8-10 centers in the United States and Switzerland. Up to 32 patients who have undergone major cardiovascular surgery will participate. Patients will receive a single IV injection of I5NP or placebo following cardiovascular surgery. I5NP will be administered 4 hours (+/- 30 minutes) following removal of the cardiopulmonary bypass machine (CBM). The duration of the study is approximately 44 days, inclusive of a 14 day screening period. Patients will be contacted by phone at 6 and 12 months for follow-up questions. Patient visits are screening, day of surgery, hospital in-patient Days 1, 2, 3 and Day 7 or hospital discharge. Safety follow-up will continue until 30 days post-surgery. 2 phone calls will be made at 6 and 12 months after date of surgery.
Although conventional hemodialysis removes waste products and corrects fluid imbalance, it does not replace critical absorptive, metabolic, endocrine, and immunologic functions performed by healthy renal tubule cells. This trial involving patients with acute renal failure evaluates the efficacy and safety of an extracorporeal renal assist device (RAD) containing human renal tubule cells connected to a conventional hemodialysis circuit. It is hypothesized that short-term (72-h) use of this cell therapeutic device will improve survival of ARF patients compared to patients receiving only conventional continuous renal replacement therapy.