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Providing additional information to patients with acute kidney injury who continue dialysis after hospital discharge and to the accepting kidney doctor (nephrologist) who manages their dialysis may be feasible and beneficial. This study will pilot measuring the patient's residual kidney function at the time of discharge and communicating that result to the accepting nephrologist and the patient, along with information on recommended recovery monitoring frequency and criteria for consideration of a twice-weekly hemodialysis schedule.
The goal of this clinical trial is to determine if vancomycin dosing in children with sepsis can be improved by using updated, personalized dosing models that account for new markers of an individual's kidney function. Vancomycin is prescribed based on the known information of how the body breaks this medicine down. Vancomycin may not be effective if blood levels of the medicine are too low. Vancomycin has potential side effects, including the possibility of injury to the kidney. These side effects usually happen when blood levels of vancomycin are too high. There are guidelines for the range of vancomycin blood levels doctors should target to treat an infection and lower the risk of side effects. Children with sepsis may metabolize vancomycin at different rates, faster or slower, than children who do not have sepsis. For these reasons, the current dosing strategy may lead to a higher risk of kidney injury or a risk of not adequately treating an infection in children with sepsis. The investigators' goal is to use new vancomycin dosing equations to improve the ability to select the right dose of vancomycin. The main questions this trial aims to answer are: 1. Is it feasible to use personalized models of vancomycin dosing in children with sepsis? 2. Will personalized models of vancomycin dosing achieve vancomycin blood levels in acceptable ranges?
This pilot study is designed to test the logistics and recruitment of a trial testing the benefit of sodium nitrate in the prevention of contrast-associated kidney injury in a group of patients at high-risk.
This study tests whether a medication called droxidopa can help improve blood flow to the kidneys in people with liver cirrhosis who develop kidney problems while in the hospital. When someone with cirrhosis experiences kidney injury, having better blood pressure can help their kidneys recover. Droxidopa is an oral medication that may help raise blood pressure without requiring intensive care or invasive treatments. The study will compare droxidopa to a placebo (inactive pill) in 75 people hospitalized with cirrhosis and kidney injury. Participants will take either droxidopa or placebo pills for 28 days and be monitored for an additional 30 days. Researchers will measure changes in blood pressure and kidney function to determine if droxidopa is effective and safe for these patients. This research could identify a new treatment option for a serious complication of liver disease.
There is a growing focus on short- and long-term kidney health in neonates, including those with acute kidney injury (AKI). AKI occurs commonly in the Neonatal Intensive Care Unit (NICU) and is associated with adverse outcomes. In addition to poor outcomes during the hospitalization, infants discharged from the NICU may have an increased burden of kidney disease during childhood. Studies of long-term kidney function in children born prematurely show a fourfold increase in chronic kidney disease (CKD) by adolescence and into adulthood. Despite the landmark findings of the Assessment of Worldwide Acute Kidney Injury Epidemiology in Neonates (AWAKEN) study, the limitations of this study are notable. First, the AWAKEN study enrolled infants admitted in 2014, making the data now over 10 years old. Much has changed in neonatal practice (e.g. increased AKI awareness, treatment strategies). Secondly, the findings of the AWAKEN study were geographically limited. While the AWAKEN study was multi-national and multi-center, it represented only 24 centers (22 from North America, 1 from India and 1 from Australia). Finally, information collected from AWAKEN ended at hospital discharge. The investigators seek to leverage the strength of the Neonatal Kidney Collaborative along with other organizations and collaboratives interested in neonatal kidney health to address these gaps. Therefore, the investigators are conducting a second, modified iteration of this study entitled "AWAKEN 2.0". AWAKEN 2.0 will be a multi-center multi-national retrospective analysis utilizing similar methodology to the AWAKEN study.
Low blood pressure, also known as hypotension, is very common during major surgery under general anesthesia. Prolonged or severe hypotension can lead to complications such as kidney injury after surgery that slow down patient recovery. Anesthesiologists commonly administer medications called vasopressors to treat low blood pressure during surgery. These medications help raise the blood pressure back up to a safe range. Two vasopressor medications are commonly used for this purpose: norepinephrine and phenylephrine. Each of these medications has slightly different effects on the heart and blood vessels (cardiovascular system). It remains unknown which of these standard medications is better for treating low blood pressure during surgery. The goal of this clinical trial is to determine which of these two medications is better at preventing injury to the kidneys after major noncardiac surgery as well as other complications such as heart problems. Major surgeries are defined as those lasting at least two hours under general anesthesia. This trial will randomize about ten centers in North America to use either norepinephrine or phenylephrine as the primary medication to treat low blood pressure in adults undergoing major noncardiac surgery. Each hospital will prioritize one of the drugs each month, and the assigned drug will rotate each month at each hospital. No further participant involvement will be required as de-identified data are collected as part of standard medical care.
The central hypothesis of this research study is that perioperative administration of the proton pump inhibitor (PPI) pantoprazole could reduce the development of acute kidney injury (AKI) following cardiac surgery by activation molecular pathways for kidney protection. The investigators propose a single-center, randomized, controlled, single-blinded trial to determine whether perioperative intravenous administration of pantoprazole will reduce the incidence of AKI, some molecules that can be detected the urine, and major adverse kidney events (MAKE) at day 30 postoperatively, compared to famotidine after cardiac surgery. The specific aims of the study will be achieved by randomizing a group of 400 patients to receive pantoprazole (study) or famotidine (control) for 3 days perioperatively. Our study population will include any adult patients (aged over 18 years) scheduled for cardiac surgery requiring a cardiopulmonary bypass machine.
Acute kidney injury (AKI) is a complication of cardiac surgery that can affect outcome. Near Infrared Spectroscopy (NIRS) is a technology that uses light to determine how well oxygenated tissues are. This technology is routinely used in cardiac surgery to measure the oxygen level in the brain by placing a sensor sticker on the forehead. The purpose of the study is to determine whether NIRS sensor stickers placed on the skin over the kidney can predict AKI better than when sensors are placed on the skin over the participant's limbs. This study is being conducted by investigators from the department of anesthesiology at the University of Utah.
This study aims to investigate, through the collection of valid scientific evidence necessary to determine safety and effectiveness, the potential use of Allogeneic Hope Biosciences Adipose-derived Mesenchymal Stem Cells (HB-adMSCs) to prevent progression of trauma-induced Acute Kidney Injury (AKI).
The purpose of this research is to collect blood and urine from adult patients admitted to an intensive care unit. This is to assess the performance of the ProNephro AKI (NGAL) assay (lab test) as an aid to identify patients at risk for acute kidney injury.