View clinical trials related to Acute Kidney Injury.
Filter by:This study was a pilot, safety, and pharmacokinetic study of MB-102 versus iohexol and the use of the non-invasive optical renal function monitor (ORFM) device in normal and compromised renal function participants with different skin color types.
In this trial, patients with acute kidney injury who have recently received a drug that may affect kidney function will be randomized to having an alert placed in the electronic health record or usual care.
The objective of the study is to assess the safety and efficacy of ANG-3777 in preventing AKI compared to placebo when administered to patients at risk for developing acute kidney injury (AKI) following cardiac surgical procedures involving cardiopulmonary bypass (CPB).
Acute kidney injury (AKI) in critically ill trauma patients has been shown to significantly increase mortality, length of stay, and costs, however detection has proven difficult as markers like elevated creatinine and decreased urine output may take days to manifest and are late indicators of AKI. The combination of two urinary biomarkers, Tissue Inhibitor of Metalloproteinase 2 (TIMP-2) and Insulin-like Growth Factor Binding Protein 7 (IGFBP-7), has been shown to increase within 12 hours following renal insult, allowing assessment of risk for developing acute kidney injury. Therefore, the investigators plan to assess if acute kidney injury in critically ill trauma patients can be determined earlier using urinary TIMP-2 and IGFBP-7 via the NephroCheck testing system. These markers have not been specifically evaluated in trauma patients at risk of AKI.
A study of renal blood flow and renal oxygenation measured by magnetic resonance after a standardized fluid challenge in critically ill, resuscitated, patients with sepsis due to COVID-19 or other agents.
This study will enroll hospitalized adults with acute kidney injury (AKI) and randomize them to usual care versus an electronic alert coupled to a "best practices" order set.
The key objective of this pilot study is to assess the molecular mechanisms of renal pre-conditioning by a one-week low-calorie diet in humans. The protective effect of the low-calorie diet and also of the protein-restriction in donor on transplant qualities and functions in receptor will also be investigated. Analysis of transcriptome, lipidome, metabolome, epigenome, proteome und phosphoproteome through tissue samples as well as blood samples for comparison of low-calorie diet, protein-restriction and no-diet groups.
Kidney injury is a serious complication of cardiac surgery that occurs in up to 30% of patients and increases the risk of adverse outcomes. Kidney injury initiates when oxygen supply to the kidney drops below levels that are needed for normal cellular function, causing tissue oxygen deficiency (hypoxia), activation of the inflammatory cascade, and oxidative stress. Together, these events further impair tissue oxygenation, culminating in impaired kidney function due to cellular injury and death. There are no effective therapies for kidney injury after cardiac surgery, but there is evidence that recovery is possible if the processes of injury - i.e., impaired oxygen delivery, increased inflammatory response, and oxidative stress - are ameliorated soon after the onset of injury. Hyperbaric oxygen therapy (HBOT) - which entails the intermittent inhalation of 100% oxygen in a hyperbaric chamber at a pressure higher than one absolute atmosphere (> 760 mmHg) - has been shown to positively affect all of these processes (i.e., to improve tissue oxygenation, reduce inflammation, and reduce oxidative stress). Thus, we hypothesized that HBOT will reduce the severity of kidney injury after cardiac surgery if it is initiated soon after onset of injury. This hypothesis has not been tested in humans, but is supported by animal studies. In this first-in-human, unblinded, controlled pilot trial, 20 adult patients who develop severe kidney injury soon after cardiac surgery will be randomized (after obtaining informed consent from the patient or surrogate) to standard-of-care or early HBOT. Severe kidney injury will be defined as a ≥30% drop in kidney function within 6 hours of surgery (as determined by change in creatinine from before surgery to Intensive Care Unit (ICU) admission). This degree of injury occurs in ~ 2% of patients and is associated with a 12-fold increase in the risk of complete kidney failure (requiring dialysis) or death. Patients will be excluded if they have any relative or absolute contraindications to HBOT (e.g., severe ventricular dysfunction, ventricular assist device, severe respiratory dysfunction, pneumothorax, bronchospasm).
Clinical definitions of acute kidney injury (AKI) have been based on an increase in serum creatinine and a decrease in urine output. However, applying this definition to neonates remains challenging because of the normal renal physiologic features that serum creatinine levels are expected to increase in the first days after birth, and impaired sodium reabsorption and concentrating ability. Because of several limitations of early detection of AKI, investigators are focused on identifying biomarkers that predict AKI before an increase serum creatinine level. Investigators will collect urine from preterm infants before and after administrating ibuprofen for closing patent ductus arteriosus. To identify novel biomarkers, investigators will analyze urine by proteomics. To verify those biomarkers, investigators will use initial urine on the first day of life from preterm infants who diagnosed AKI within 7 days after birth without any risk factors for AKI and enrolled institutional bio-repository.
Contrast-induced acute kidney injury (CI-AKI) is an important adverse effect of percutaneous coronary interventions. Despite various efforts, very few preventive measures have been shown effective in reducing its incidence. The final volume of contrast media utilized during the procedure is a well- known independent factor affecting the occurrence of CI-AKI. Intravascular ultrasound (IVUS) has been largely used as an adjunctive diagnostic tool during percutaneous coronary intervention (PCI). When fully explored, IVUS provides precise information for guiding PCI, thereby reducing the usage of contrast media. Accordingly, the recent MOZART study demonstrated that IVUS may lead to a 2-3-fold decrease in the volume of contrast media during PCI. In the present study, the hypothesize that IVUS guidance, and its consequent reduction in the volume of contrast media, will in decrease the risk of CI-AKI after PCI, in comparison to standard angiography-guided intervention.