View clinical trials related to Renal Failure.
Filter by:Incisional negative pressure therapy (INPWT) has previously been shown in certain patient populations to decrease wound healing complications, decrease the rate of hematomas and seromas, as well as have better scar quality. We have found a group of patients, those who have panniculectomies in preparation for renal transplant, with significantly higher rates of wound healing complications. We believe the best way to demonstrate benefits of incisional negative pressure wound therapy will be in this group of patients known to have significantly higher rates of wound complications.
To evaluate the effect of automated recording on frequency of recorded scores, number of automated notifications and serious events.
Proof of concept, open-label single center study for the donation of HCV positive kidneys to HCV negative patients, with preemptive, interventional treatment to prevent HCV transmission upon transplantation.
Sleep disturbance is a significant issue in people undergoing dialysis. More than 80% of haemodialysis patients complain of difficulty sleeping. Inadequate sleep can cause poor daytime function and increased risk of motor vehicle incidents. One of the common reasons for sleep disturbance in dialysis patients is sleep apnoea. Sleep apnoea involves pauses in breathing that occur during sleep. Each pause can last only a few seconds or minutes. Severe sleep apnoea reduces oxygen supply and increases risk of heart attack and stroke, which are the leading causes of death in dialysis patients. In this project, the investigators will examine how a change of dialysis treatment might improve sleep. This project will first identify patients at risk of sleep disturbance using surveys and a subsequent sleep study. The investigators will then test different dialysis models to see the effect of dialysis treatment on sleep apnoea. The aim is to find a dialysis model that works better for patients with sleep apnoea.
This phase I trial studies the side effects and best dose of dabrafenib in treating patients with solid tumors and kidney or liver dysfunction. Dabrafenib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
Postoperative renal function recovery is very important to value the operation quality after kidney transplantation. Dexmedetomidine is a selective alpha-2 agonist,enhances urine flow rate and perioperative renal function. Some animal experiments have revealed its beneficial effects against ischemia-reperfusion injury (IRI), our goal is therefore to investigate the effectiveness of a recipient treatment with Dexmedetomidine during operation at reducing Cystatin C level and enhancing renal function after kidney transplantation.
This randomized clinical trial will conducted involving 60 patients under hemodialysis and hospitalized to Imam Reza and Montasareyeh hospitals of Mashhad in 2016. Patients were assigned to experimental and control groups of 30 people, randomly (double block). In the both intervention and control group, first will be washed the Catheter with Betadine, but in intervention group, after 2 minutes will be used of the clove extract with 2 ml of scrub for 15 seconds. The incidence and severity of inflammation as well as infection of vascular access will be assessed in patients on hemodialysis for each patient before starting the process over a period of 2 weeks is equivalent to 6 sessions of hemodialysis.
Alleviating pain in children undergoing renal transplant is extremely challenging. Large incisions as those of renal transplant (Gibson's incision) require special techniques of pain control that don't affect hemodynamics or renal function. Since the transplant incision doesn't cross midline; a dual-TAP block is thought to be effective in providing pain control in such procedure as it will anesthetize the dermatomes T6-T12, the muscles of the anterior abdominal wall together with the underlying parietal peritoneum.
Safety during transfusions is a major issue in medical economics. Despite drastic quality control measures, transfusion is still a source of short, mid and long-term morbi-mortality. This can be explained to some extent by changes in the composition of the packed red blood cell (PRBC) supernatant during storage essentially with the appearance of immunologically active compounds possibly involved in organ dysfunction on the one hand and post-transfusion immunomodulation on the other hand. These phenomena impact upon outcomes for cardiac surgery patients. In terms of organ dysfunction, kidney failure due to acute tubular necrosis and pulmonary failure are the 2 main issues. Following cardiac surgery, 11% of patients will present with transient renal dysfunction characterised by a 25% increase in serum creatinine levels and 3.5% require dialysis. The intensity of acute renal failure (ARF) is correlated to resuscitation : a 20% increase in serum creatinine levels 2 to 3 days after surgery significantly raises morbidity rates and a 50% increase raises the mortality rate to 10%. The precise mechanisms governing post-transfusion immunomodulation have not yet to be defined. The appearance of soluble type I Human leukocytes Antigen (HLA) molecules (sHLA-I), the FAS ligand (FAS-L) or cluster designation 40 (CD40-L) in the supernatant of PRBCs along the storage of blood products may be involved in such phenomena. These molecules are capable of activating or triggering the death of innate or adaptive immunity cells, especially the Natural Killer (NK) cells. Consequently the investigators propose to focus specifically on the detailed composition of transfused PRBC supernatants in order to identify the candidate molecules responsible for organ dysfunction or post-transfusion immunoparalysis. The investigators will combine a clinical approach based on the transcriptional analysis of renal tubular cells in transfused patients and an ex-vivo approach investigating the effect of the supernatant on immune cells and the Natural Killer cells of healthy volunteers
Patients undergoing open heart surgery are at risk of suffering damage to the heart, brain and kidneys. This study is designed as a 2-by-2 randomized clinical trial with the purpose of investigating the organ protective effects of the glucagon-like-peptide-1 (GLP-1) agonist Exenatide versus placebo and restrictive versus liberal oxygenation during weaning from cardio-pulmonary bypass.