Active clinical trials for "Acute Kidney Injury"

This trial is designed to evaluate QPI-1002 versus placebo for the prevention of AKI in subjects who are at high risk for AKI following cardiac surgery. Half of the participants will receive QPI-1002 while the other half will receive placebo.

This is a prospective randomised control trial 1:1 in patients at risk of developing Acute Kidney Injury after cardiac surgery comparing the RenalGuard® System to current medical treatment. 110 patients will be recruited for each group. The aim of the study is to assess whether the RenalGuard® system reduces Acute Kidney Injury (AKI) after cardiac surgery as compared to current practice.

The aim of the present study is to assess the metabolic impact of Continuous Renal Replacement Therapy and overview the obstacles and important factors compromising the use of Indirect Calorimetry in CRRT and suggest a model to overcome these issues.

This study evaluates the impact of a biomarked guided intervention on the development of acute kidney injury in high risk surgical patients. Eligible patients are screened for marker of tubular stress in the urine; if patient specific results are above a pre-defined cutoff they are randomized into a standard care group or an interventional group in which patients receive intensified volume therapy.

Diagnostic and therapeutic cardiac catheterization procedures are important interventions to reduce the risk of death, avoid future cardiovascular events, and improve quality of life of people with heart disease. However, exposure to the radiocontrast dyes required for these procedures can lead to contrast-induced acute kidney injury (CI-AKI); a common and costly complication. There are accurate ways to identify patients at increased risk of this complication and strategies to prevent CI-AKI. This involves ensuring that patients who are at risk have procedures done with the minimum amount of X-ray contrast dye required, and that they receive optimal intravenous fluids at the time of the procedure. This study will evaluate the implementation of a strategy where computerized decision support tools are used to help doctors identify patients at risk of CI-AKI, as well as make decisions about how much contrast dye to use and how much intravenous fluid to provide to patients who are identified at risk of CI-AKI in cardiac catheterization.

An interventional controlled trial to test the feasibility of applying risk score based prevention for critically ill patient at high risk to develop acute kidney injury (AKI)

Following heart transplantation many patients develop acute renal failure in the early posttransplant phase and some are in need of renal replacement therapy for shorter or longer time. The cause of this acute renal failure is most probably multi factorial but many reports indicate that cyclosporine has a central role in the pathophysiology and it is generally recommended to lower the cyclosporine load to patients developing acute renal failure in this population. Several in vitro studies on renal cells in culture indicate that the primary metabolites of cyclosporine (AM1, AM9, AM4N) are less toxic to the kidney than cyclosporine itself. However, the secondary metabolite AM19 as well as the cyclic metabolites AM1c and AM1c9 has been associated with decreased renal function and nephrotoxicity renal transplant recipients. The primary objective of this pilot study is to investigate if the concentrations of secondary- and cyclic metabolites of cyclosporine (AM19, AM1c, AM1c9) is related to development of acute renal failure in the early posttransplant phase following heart transplantation. Secondary objectives are to investigate associations between genotypes of P-glycoprotein and CYP3A5 and the metabolic pattern of cyclosporine.

Background During anaesthesia for repair of a broken hip, many patients experience low blood pressure. There have been many studies showing that patients who experience low blood pressure during anaesthesia are at increased risk of sustaining kidney or heart damage, strokes, having a post-operative infection, or dying. During anaesthesia, in most cases blood pressure is monitored using a cuff which inflates on the arm (the 'normal' way blood pressure is measured in a GP practice or hospital ward). This gives a reading each time the cuff goes up and down, every 3-5 minutes typically. There is a less well used way to measure blood pressure, using an additional cuff on the finger which gives a constant, continuous measure of blood pressure. We think that using this monitor, rather than the 'standard' monitor, will mean that low blood pressure is recognised more quickly, therefore treated more quickly, and will lead to patients having less exposure to dangerously low blood pressures. If this is the case, we hope that it will reduce how often patients experience kidney or heart damage, have an infection after surgery, suffer a stroke, and reduce the risk of death. Methodology To test this, we would need to run a large clinical trial comparing the continuous monitor to the standard monitor. This would be expensive and involve a great deal of work in a large number of hospitals, and so first we wish to determine whether the trial we would like to run is practical, and possible to deliver in the real world. To do this we plan to run the trial first on a small-scale feasibility (pilot) study, where we will recruit 30 patients, half of whom will have the standard monitor, and half of whom will have the continuous monitor. We will see what proportion of the patients who could enter the trial actually do so and complete it, and use it as an opportunity to iron out problems with the trial. If we find it is possible to run the trial on a small scale, we will apply for funding to run a full study. This will aim to answer the question of whether the continuous monitor improves the patient outcomes which were agreed during development with the patient public involvement group locally; rate of kidney damage, heart damage, stroke, post-operative infections, risk of death, and hospital length-of-stay. Expected outcomes and implications. We anticipate we will find the trial to be feasible with amendments to the way it is run, and if this is the case, we will apply to run the full scale trial. If this shows that using the continuous monitor improves the patient outcomes above, then it would represent new, significant evidence that may lead to the NHS adopting it's use as 'standard care' during anaesthesia for repair of a broken hip, and would like lead to similar trials in other operations where patients may benefit in a similar way.

This study is a prospective observational study of a single cohort of the patients who will undergo a scheduled living donor liver transplantation. The investigators attempt to evaluate the association of intraoperative renal regional oxygen saturation and acute kidney injury in patients undergoing living donor liver transplantation. Near-infrared spectroscopy sensor will be attached to the skin near bilateral kidney areas in all patients and renal regional oxygen saturation will be monitored during the operation. Renal regional oxygen saturation (rSO2) of the patients who developed acute kidney injury postoperatively will be compared with rSO2 of the patients who did not.

Acute kidney injury (AKI) is common after cardiac surgery. The diagnosis is based on the criteria defined by the Kidney Disease Improving Global Outcomes (KDIGO) classification: oliguria and elevation of serum creatinine. However, oliguria is not specific of AKI and elevation of serum creatinine is too late. Therefore, new methods have been developed to earlier assess the risk of AKI. Among those methods, it has been shown that the increase of urinary dosage, in the hours following the surgery, of two proteins (Tissue Inhibitor of Metallo-Protease 2 (TIMP2) and Insulin Growth Factor Binding Protein 7 (IGFBP7)) is associated with an increased risk of occurrence of AKI in patients hospitalized in intensive care unit. The Nephrocheck® test combines the urinary dosage of those two proteins TIMP2 and IGFBP7. Insofar as post-surgery low cardiac output is one curable cause of AKI, the early detection of early kidney risk allows corrective measures to stabilize hemodynamic state and thus to reduce the risk of AKI.