Active clinical trials for "Acute Kidney Injury"

The purpose of this study is to assess the feasibility of measuring urine oxygen tension in cardiac surgery patient and the ability of peri-operative urine oxygen measurements to predict post-operative acute kidney injury. The hypothesis is that a small oxymeter placed in a urinary catheter will provide reliable measurement of urine oxygenation and that these measurements will predict post-operative acute kidney injury in cardiac surgery patients.

This study was to find out whether laparoscopic colorectal surgery is detrimental to the kidneys via PVI monitoring. To detect the kidney injury, so-called kidney troponin NGAL ,which gives earlier information than creatin in renal ischemic injury, was used.

This study aims to determine changes in kidney function during and after critical illness, comparing conventional creatinine based methods with the gold standard to accurately establish the presence of new or worsened chronic kidney disease. In addition, investigators will assess the confounding effect of muscle wasting on the conventional assessment of kidney function and investigate the information that measures of kidney function may contribute to the assessment of musculoskeletal health after critical illness.

The investigators aim to compare between standard versus comprehensive care for post-acute kidney injury who are admitted with acute kidney injury at least stage 2 or receive renal replacement therapy.

New markers of AKI including plasma Neutrophil Gelatinase Associated Lipocalin (NGAL) and Interleukin 18(IL-18) may form a biomarker panel that may help predict AKI earlier in the course of disease than creatinine. Biomarkers for renal injury decreases following successful Renal transplantation. The level of decrease in biomarkers, correlates with the renal graft function, and this fall occurs earlier than the fall in creatinine and/or increase in the Urine output. Should graft dysfunction occurs, investigating the fall in biomarkers could provide a window of opportunity for therapeutic interventions and also guide in evaluating the effectiveness of such interventions. NGAL is a 25 kilo Dalton(kDa) ligand-binding protein of the lipocalin family, present in human tissues including kidney. NGAL is induced early in ischemic or nephrotoxic injury to the kidney. It has also been evaluated as a biomarker of acute injury in kidney transplantation. Interleukin (IL)-18 is synthesized as an inactive 23 kDa precursor by several tissues including monocytes, macrophages, and proximal tubular epithelial cells. Urine IL-18 is elevated in patients with acute tubular necrosis and in urinary tract infection, chronic renal insufficiency, and prerenal azotemia. Delayed graft function and slow graft function are associated with poor graft survival at one year. Early prediction of graft dysfunction could help prognosticate and initiate renoprotective measures. Urine biomarkers including NGAL and IL 18 have shown promise in this regard, but it may be fraught with risk of biomarker dilution, an effect of urinary flow rate on biomarker levels. The investigators hypothesized that plasma NGAL and plasma IL-18 can detect reduced renal graft function in renal transplant recipients within the first 2 postoperative days.

Rehydration during and after physical exercise is essential to avoid acute kidney injury. Soft drinks are commonly used during exercise. High intake of carbohydrates is leading to obesity and metabolic disorders. Fructose intake is leading to uric acid abnormalities and kidney injury. 30 healthy soccer players will be studied. During four training sessions subjects will intake 500 ml 7% soft drinks containing glucose, fructose, saccharose or xylitol. Changes in acute kidney injury markers, markers of kidney tubular function as well as changes in CRP, glucose, cholesterol and uric acid levels will be studied..

Heptorenal syndrome (HRS) is divided into two types. A non-acute kidney injury (NAKI-HRS), which is predominantly related to end-stage disease and a more acute kidney injury (HRS-AKI). HRS-AKI is potentially reversible and develops subsequent to aggravation of a systemic circulatory vasodilatation, that triggers renal vasoconstriction and deteriorates renal perfusion and function. The albumin and terlipressin response is evaluated clinically, routinely for a week and reduces mortality with 23% compared to no treatment. Only 40-50% of the patients with HRS-AKI respond to the treatment with terlipressin. The treatment of hepatorenal syndrome (HRS-AKI) is aimed at improving blood flow to the kidneys. Flow changes associated to development of HRS have only sparsely been studied and not previously by MR technique and no previous studies have evaluated changes in flow induced by terlipressin. It has been hypothesized that development of HRS is associated to a deterioration in heart function with development of cardiomyopathy, which together with renal vasoconstriction leads to renal failure. Simultaneous MR-assessments of cardiac function and flows (especially the renal flow) in HRS-AKI have not previously been performed. The aim of the project is to develop new, fast and non-invasive methods to evaluate hemodynamic changes and individual pharmacological terlipressin response in patients with acute hepatorenal syndrome (type HRS-AKI) We expect a higher increase in renal blood flow in terlipressin-responders compared to terlipressin-non-responders and non-responders will generally have a lower basic renal flow and a decreased cardiac output. Study design and patients The study design is experimental and includes 30 cirrhotic patients with HRS-AKI. Patients with HRS-AKI are MR scanned before and 17 minutes after their first dose of terlipressin. ECHO is performed before first dose of Terlipressin and is repeated after one of the first doses of terlipressin. Clinically efficacy is defined in accordance to international guidelines at day-7 and 90 days mortality is registered. The screening period and treatments follow international and national guidelines for acute renal failure in patients with cirrhosis.

In cases of cardiac surgery or sepsis which cause inflammation, oxidative stress, endothelial injury and vasoplegia, serum vitamin C concentration is sharply decreased. The anti-inflammatory and anti-oxidant effects of vitamin C and the effects of reducing vasoconstrictor use have been demonstrated in patients with sepsis and septic shock, however, the foregoing effects have not been validated in patients undergoing cardiac surgery. In this study, investigators investigate the effect of intravenous vitamin C on the incidence of acute renal injury after valvular heart surgery.

Acute kidney injury (AKI) is a critical complication associated with a high incidence of morbidity and mortality that can occur in critically ill patients and after major surgical procedures. The aim of this study is to identify the incidance and outcomes of patients underwent pneumonectomy, defined by Kidney Disease Improving Global Outcomes (KDIGO) criteria.

Acute kidney injury (AKI) is a frequently encountered complication in the intensive care unit (ICU), affecting on average 25 to 35% of patients. It is associated with an increased mortality, proportional to AKI severity. RRT induces important shifts of water and electrolytes. Thus, significant amount of chloride might unintentionally be transferred to patients. Chloride is the main anion of the organism. It is involved in the regulation of numerous physiological processes. Thus, significant and rapid modification of chloride amount contained in the organism (as might be induced by renal replacement therapy) may be responsible for important, and potentially deleterious, consequences to critically ill patients. Studies have shown that the administration of high amounts of chloride rich solutions (such as sodium chloride (NaCl) 0,9%) was associated with the development of hyperchloremic acidosis in a dose-dependent manner. This hyperchloremic acidosis could also be theoretically associated with deleterious physiological effects. However, the true clinical consequences of administration of high amounts of chloride rich solutions remains unclear. Their effect on mortality remains a matter of debate, the results of studies being very conflicting in that respect. Nevertheless, hyperchloremia itself and/or the rise of chloremia in the intensive care unit seems to be associated with increased mortality. Moreover, the impact of those chloride rich solutions on the development of acute kidney injury is also a subject of controversy, data from the literature being here again very conflicting. A recent study already showed that continuous RRT (CRRT) techniques induce a significant transfer of sodium to patients benefiting from those techniques. In that study, the amount of sodium transferred depended mainly on the difference between patient's natremia and sodium concentration in dialysate and/or replacement fluid (usually higher than patient's natremia) used. By analogy, it is likely that an occult transfer of chloride also happens during RRT, given the high chloride concentration of dialysate fluids (in continuous veno-venous dialysis, CVVD) and replacement fluids (in continuous veno-venous hemofiltration, CVVH), or when these 2 modalities are combined (continuous veno-venous hemodiafiltration, CVVHDF). Finally, the investigators suspect, although it remains undemonstrated so far, that the RRT technique (convective vs. diffusive) may influence this transfer, to an unknown extent. Nevertheless, this transfer and its potential determinants have never been studied yet. If chloride overload (and its potential clinical consequences) induced by the administration of solutions such as NaCl 0,9% is being extensively studied, no study has ever focused on chloride transfer that may result from the use of renal replacement therapy. However, as mentioned above, it is very likely that such a chloride transfer to patients happens, and that its magnitude depends on different parameters such as RRT modality, RRT fluids characteristics, or patient's chloremia at the start of RRT. The investigators conduct the present study to describe and compare the intensity of chloride transfer during the first 24 hours of renal replacement therapy by continuous veno-venous hemofiltration (CVVH), continuous veno-venous hemodialysis (CVVD),or continuous veno-venous hemodiafiltration (CVVHDF), and to determine if that transfer is more important with one or the other of those two techniques, in ICU patients affected with severe AKI requiring RRT. Secondary aims are to describe and compare the effects of chloride transfer under 3 RRT modalities (CVVD, CVVH and CVVHDF) on patient's outcome, organ failures, electrolyte and acid-base balance, fluid balance and hemodynamics. Finally, the investigators aim to develop a pharmacokinetic compartment model of chloride transfer during different modalities of RRT.