View clinical trials related to Acute Kidney Injury.
Filter by:Clinical phase 3 study to investigate the effect of recAP on 28 day mortality in patients admitted to the ICU with acute kidney injury that is caused by sepsis. The study has three distinct SA-AKI trial populations: 1. The main trial population: Patients with a pre-AKI reference eGFR ≥45 mL/min/1.73 m2 and no proven or suspected SARS-CoV-2 at time of randomization. 2. A 'moderate' CKD population: Patients with a pre-AKI reference eGFR ≥25 and <45 mL/min/1.73 m2 and no proven or suspected SARS-CoV-2 at time of randomization. 3. A Corona Virus Disease 2019 (COVID-19) population: Patients with proven or suspected SARS-CoV-2 at time of randomization with or without 'moderate' CKD. For patients in this population, COVID-19 should be the main cause of SA-AKI. In the main study population approximately 1400 patients will be enrolled and in the two cohorts with moderate CKD and COVID-19 each up to 100 patients. There are two arms in the study, one with active treatment and one with an inactive compound (placebo). Treatment is by 1 hour intravenous infusion, for three days. Patients are followed up for 28 days to see if there is an improvement on mortality, and followed for 90 and 180 days for mortality and other outcomes e.g. long-term kidney function and quality of life.
PrimECC is a colloid priming solution for cardiopulmonary bypass/ extracorporeal circulation (ECC) based on Ringers Lactate, supplmeneted with Dextran 40 and Dextran 1. In a previous RCT comparing PrimECC with crystalloid priming fluid, patients in the PrimECC group experienced less hemolysis, less tubular cell injury and beneficial effect on the fluid balance. This study will investigate if, in a population at high risk of acute kidney injury (AKI), priming the ECC circuit with PrimECC instead of crystalloid solution will lead to a reduction of postoperative AKI. The hypothesis is that PrimECC, compared to crystalloid prime, will reduce postoperative AKI. The study is a Swedish multicenter, double-blinded, randomized, controlled clinical trial. The trial will include 366 patients aged ≥18 years, scheduled for cardiac surgery with cardiopulmonary bypass, with an "Acute kidney injury risk score" ≥30% according to Birnie et al. (2014). The primary outcome of the study is the incidence of postoperative AKI of any stage according to the KDIGO creatinine criteria (serum-creatinine increase ≥ 27 μmol/l within 48 h or ≥ 50 % increase from baseline) within 96 hours after arrival to the ICU. Secondary outcomes are between-group differences in hemolysis, tubular cell injury (NAG-excretion), estimated GFR, and incidence of AKI of different stages according to the KDIGO creatinine criteria. In addition, differences in CNS (Tau, NFL, NSE, and S100B) and cardiac (TNT/TNI) injury markers will be investigated.
The study will examine the ability of renal ultrasound (Doppler and Contrast Enhanced Ultrasound (CEUS)) in distinguishing ICU patients who exhibit increases in glomerular filtration rate (GFR) in response to fluid loading, from those for whom fluid loading is without benefit of directly harmful.
The objective of the EQUODIA study is to evaluate the hemodynamic stability of hemodialysis with low dialysate flow in patients requiring emergency hemodialysis in the context of acute kidney injury or unscheduled end-stage renal disease, not in intensive care, compared to conventional triweekly high-flow hemodialysis. Short daily hemodialysis has excellent hemodynamic tolerance, which has already been confirmed by clinical experience. This modality, commonly used in the patient's home through new machines allowing a low dialysate flow purification technique, can prove to be an innovative, effective and safe alternative for patients admitted for hemodialysis in an unscheduled situation (acute kidney injury, unscheduled end-stage renal disease not followed). Up to now, no studies have evaluated the use of short daily hemodialysis with low dialysate flow in patients with acute kidney injury or unscheduled end-stage renal disease, requiring the initiation of emergency extra-renal purification.
Infection and sepsis are common after acute kidney injury (AKI) and increase mortality. In this study, the investigators will determine whether patients with acute kidney injury after cardiac surgery have immunosuppression as judged by blood markers of immunoparalysis.
Ischemic acute tubular necrosis (ATN) is one of the main cause of acute kidney injury (AKI) in intensive care units (ICU). Sepsis and cardio-pulmonary bypass (CPB) are major providers. There is no validated tool to predict the evolution of AKI is ICU. Furosemide Stress Test (FST) may predict evolution of ATN-related AKI outside ICU in terms of progressive AKI, need for renal replacement therapy (RRT) or inpatient mortality with improved performance comparing to biomarkers. FST has not been validated in a prospective cohort in ICU in the settings of ischemic ATN. FURTHER aim to determine whether FST would be a useful tool to identify patients with slight to moderate AKI (KDIGO stage 1 and 2) who will evolve towards need for RRT following AKIKI (The Artificial Kidney Initiation in Kidney Injury ) delayed initiation criteria.
This study has the objective to evaluate the effect in renal function of 30mg of Melatonin versus placebo in patients ≥18 years old treated with polymyxin B. The development of nephrotoxicity will be evaluated by RIFLE(Risk, Injury, Failure, Loss, End stage renal disease) score and KIM-1 urinary biomarker for the first 14 days of polymyxin B therapy.
Fluid resuscitation remains the cornerstone for the care of severe trauma patients to compensate for blood loss, to compensate for capillary leak induced by systemic inflammation but also to prevent the detrimental consequences of traumatic rhabdomyolysis. Isotonic saline (NaCl 0.9%), called "physiological serum" is the standard fluid for the resuscitation of severely injured patients. However, the formulation of NaCl 0.9% is not really physiological since its chloride concentration is 1.5 higher than the one of human plasma. This excessive chloride concentration leads to hyperchloremic acidosis and to a drop in renal perfusion after isotonic saline infusion. For this reason, we wonder whether fluid resuscitation with Plasmalyte would be beneficial for renal function of trauma patients in comparison with NaCl 0.9%. Our research question is: In a population of trauma patients at high risk of acute kidney injury, does a fluid resuscitation with Plasmalyte Viaflo lower the incidence of severe acute kidney injury (stage 2 or 3 according to the KDIGO classification) compared with a resuscitation with isotonic saline (NaCl 0.9%)?
A randomized control trial among patients with septic shock, studying the incidence, progression and recovery of AKI.
Hemodialysis is a therapy that filters waste, removes extra fluid and balances electrolytes. In hemodialysis, blood is removed from the body and filtered through a man-made membrane called a dialyzer, and then the filtered blood is returned to the body. Hemodialysis is associated with injury to the heart muscle called myocardial stunning. This may occur for many reasons, including removal of fluid during dialysis or low blood pressure. Initial ischemia and subsequent white blood cell infiltration into the injured myocardium play a critical role in the degree of myocardial ischemia reperfusion injury. In this study an additional man made membrane (selective cytopheretic device) and tubing will be added to the dialysis circuit. The device shifts the circulating white blood cells pool to a less inflammatory phenotype. Researchers believe the selective cytopheretic device will alter the phenotype of circulating white blood cells which play a role in myocardial stunning. The purpose of this study is to evaluate whether the selective cytopheretic device will reduce myocardial stunning events in hemodialysis patients. It will also report the rate of adverse events.