View clinical trials related to Renal Failure.
Filter by:In this study, the investigators will conduct a randomized, controlled trial to evaluate the impact of offering mobile secure text messaging on clinical outcomes.
The purpose of this study is to determine 1. whether intraoperative hypotension or hypertension is independently associated with postoperative mortality and morbidity 2. whether quality improvement interventions implemented at the University of Michigan and at Washington University: 1. decrease the extent and duration of intraoperative hypotension and hypertension. 2. are associated with decreased postoperative mortality and morbidity.
The aim of this study is to evaluate the treatment with midodrine, octreotide and albumin during 12 weeks in patients with hepatorenal syndrome. Fifteen patients will be enrolled and followed during 16 weeks. The effects on renal function will be evaluated 12 and 16 weeks after the beginning of the treatment by isotopic evidence and biochemist determinations. Also it will be evaluated arterial pressure and determination of vasoactive hormones (plasma renin, aldosterone and norepinephrine).
Ceftazidime is a broad spectrum cephalosporin with high activity against a variety of Gram-negative pathogens, including Pseudomonas aeruginosa. An open-label study of intravenous ceftazidime pharmacokinetics will be performed in patients undergoing intermittent hemodialysis at Northwestern Memorial Hospital to determine the clearance of ceftazidime in high flux hemodialysis.
The intent of this clinical study is to answer the questions: 1. Is the proposed treatment safe 2. Is treatment effective in improving the disease pathology of patients with Renal Failure and clinical outcomes
Newly formed dialysis fistulae can often fail, and failure is usually due to narrowing of the blood vessels. Methods of detecting narrowing are available and, more importantly, can detect narrowings before a fistula fails. It is not known whether treating these narrowings will actually improve fistula survival or if the majority can be left alone. we wish to see if we can detect such narrowings with ultrasound scanning and if early detection and treatment improves patient outcomes.
Pharmacokinetics for peramivir have not been well characterized in patients undergoing continuous renal replacement therapy CRRT - either Continuous veno-venous hemofiltration (CVVH) +/- dialysis (CVVHD). CRRT is commonly utilized in the hospital setting for patients with acute kidney injury for metabolic correction, slow continuous fluid removal, and to maintain hemodynamic stability. CRRT commonly alters drug disposition and clearance, and dosing regimens often need alteration in patients receiving CRRT. Doses required to generate predictable serum concentrations can be calculated from known patient parameters such as replacement fluid and dialysate flow rate, sieving coefficients, and desired serum concentrations. However, pharmacokinetic studies must be performed in CRRT patients to generate drug removal constants or sieving coefficients. Of note, the clearance of drugs by conventional hemodialysis cannot be used to extrapolate clearances with CRRT secondary to differences in ultrafiltration rates and dialysis membranes. The investigators propose an open label study to obtain peramivir pharmacokinetics in patients undergoing CRRT.
The purpose of this study is to investigate what effect a local anesthetic nerve block of the arm in patients with end stage renal failure has upon blood flow in the skin of the arm.
Healthy kidneys clean your blood by removing excess fluid, minerals, and wastes. When your kidneys fail, harmful wastes build up in your body and your body may retain excess fluid. When this happens, you need treatment to replace the work of your failed kidneys. This may be with a dialysis machine using haemodialysis or with fluid in the abdomen or peritoneal dialysis. In peritoneal dialysis, a tube called a catheter is put in the abdomen wall and used to fill your abdomen with a cleansing liquid called dialysis solution. The walls of your abdominal cavity are lined with a membrane called the peritoneum, which allows waste products and extra fluid to pass from your blood into the dialysis solution. These wastes and fluid are removed from the body when the dialysis fluid is drained and replaced with a fresh solution. The tubes or catheters used to exchange the fluid are currently positioned using a general anaesthetic (with the patient awake) and an operation with a cut under the belly button. Newer techniques using local anaesthetic (with the patient awake and the area numbed) and requiring only a small cut in the skin have been used. No one has ever directly compared the two techniques. The investigators aim is to perform a direct comparison between the two techniques to look at the complications and time required for surgery and length of hospital stay required. The investigators will also look at the patients satisfaction and pain scores with each technique to help gather evidence as to which is likely to be the best technique to use from now on.
Study of the kinetics of uremic toxins in the ICU patients with acute renal failure, in order to optimize the dialysis dose: patients with sepsis/multi-organ failure. The sampling of blood and dialysate will be done during dialyses with different durations (4, 6 and 8h)