View clinical trials related to Acute Kidney Injury.
Filter by:AKI(Acute Kidney Injury) is a common complication after cardiac surgery which is associated with increased mortality and morbidity. The conventiional marker for detecting AKI is serum creatinine, however, which has many limits. RRI(Renal Resistive Index) is a non-invasive test measured by ultrasound and could be a useful tool to evaulate renal insult in the early phase. Early detection of renal insult and prevention of progression to AKI can contribute to reduing mortality and morbidity in cardiac surgical patients.
This study aims to evaluate whether the serum levels of Cystatin C (CysC) can be used as early biomarkers for the identification of patients who are prone to AKI after cardiac interventional surgeries as primary percutaneous coronary intervention (PCI)
An estimated 10-15% of critically ill patients with acute kidney failure in the intensive care unit receive acute dialysis therapy. The majority of these patients initially receive continuous for of dialysis therapy call continuous renal replacement therapy (CRRT). Prior studies have suggested that higher CRRT dose-intensity improved health outcomes for these patients; however, this was not found in high-quality clinical trials. These more recent trials suggested a lower range of dose-intensity compared with the higher range as the new standard of care. This was incorporated into guidelines. To date, no clinical trials have evaluated this lower range and specifically, it is plausible that an even lower dose-intensity of CRRT may be well tolerated, safe, associated with similar outcomes and be more cost-effective. This is the objective of the WISDOM trial, to compare the guideline standard with lower dose-intensity among patients who are started on CRRT in the intensive care unit.
Cirrhosis and portal hypertension are associated with a hyperdynamic circulation and decompensation events, including development of ascites, variceal bleeding, acute kidney injury, and susceptibility to infections. Rationale: Cirrhosis and portal hypertension are associated with a hyperdynamic circulation and decompensation events, including ascites, variceal bleeding, acute kidney injury, and susceptibility to infections. CCM, present in 30-70% of patients, is characterized by structural and functional abnormalities in the heart, and is associated with progression of cirrhosis, impaired quality of life and poor survival. Statins play a crucial role in reducing proatherogenic LDL cholesterol levels, making them a cornerstone in managing diabetes and cardiovascular diseases (CVDs) with the aim of decreasing or reversing atherosclerosis. This trial aims to evaluate the impact and safety of simvastatin in cirrhotic cardiomyopathy. Novelty: Simvastatin might be of special value in diastolic dysfunction through its hemodynamic and functional effects on LV remodeling and improve portal hemodynamics through the pleotropic effects of lipophilic statins. Objectives: The primary objective is to assess the combined effects of carvedilol and simvastatin in managing CCM vs carvedilol alone for a composite outcome to prevent decompensation and reduce all-cause mortality. We will comprehensively evaluate cardiac function, decompensation events and survival based on impact of simvastatin over the standard betablocker carvedilol. Methods: This is double-blinded randomized placebo-controlled trial involving patients diagnosed with CCM. Clinical data, including cardiac imaging, cardiac biomarkers, and survival outcomes, will be assessed for either group. Expected Outcome: We anticipate that the synergistic use of simvastatin and carvedilol will effectively reduce portal pressure, improve portal haemodynamic, and enhance cardiac remodelling. Successful reversal of LVDD can potentially prevent clinical events such as ascites, encephalopathy, and acute kidney injury (AKI).
Fluid expansion with isotonic crystalloids is a first-line intervention in the treatment of patients with acute kidney injury (AKI). While it is generally accepted that the timely correction of kidney hypoperfusion will minimize the extent of injury as well as potentially facilitate recovery, there are potential harms involved in indiscriminate administration of intravenous fluids. Although anticipating fluid tolerance is part of the clinical evaluation of a patient for whom intravenous fluid therapy is considered, it has been suggested that using Point-Of-Care ultrasound (POCUS) may enable the early identification of patients with a high-risk of congestive complications and guide clinical decisions with greater precision[1]. However, it has not been shown that providing this information in the context of AKI result in a change in management or a prevention of complications. This single-center pilot randomized controlled trial aim to determine the feasibility of comparing a management including a POCUS evaluation of fluid tolerance to usual care in non-critically ill patients with AKI. In the intervention group, a POCUS evaluation will be performed and interpreted by experienced staff producing a report that will be presented to the attending care team. This assessment will be repeated 48-72 hours later. The primary aim of the study will be to establish the feasibility of this intervention. Secondary objectives will include determining the difference between the intervention arm and the control arm in relationship with fluid administration, diuretic use, evolution of kidney function, and intensification of care.
Heart failure is a syndrome that progresses with symptoms and signs caused by cardiac dysfunction and results in a shortened life expectancy (1). Acute heart failure resulting in hospitalization is a significant cause of morbidity and mortality. With the increase in the severity of the disease and rapid advances in the treatment of heart failure, these patients are frequently hospitalized and monitored in intensive care. (2) Five years after diagnosis, mortality can be up to 67%. Additionally, it is known that patients with heart failure are hospitalized on average once a year after diagnosis. (3) In a multicenter study, it constituted 14% of 3000 cardiac patients admitted to intensive care units. Additionally, due to longer ICU stays, these patients accounted for 33% of total inpatient days. An increasing number of heart failure patients require intensive care due to respiratory failure, regardless of left ventricular ejection fraction. Heart failure accounts for approximately one-third of patient days in intensive care units, and this burden is increasing. This shows that attention should be paid to the quality of care for patients requiring critical care. (2) Multidisciplinary programs have been implemented to deal with the high prevalence. However, the optimal follow-up frequency is unknown. Therefore, some tools are needed to improve patient prognosis (3). Neutrophil gelatinase-associated lipocalin (NGAL) is a biomarker whose values in both urine and plasma have been associated with acute kidney injury (AKI). Although NGAL is an early specific biomarker for AKI, it has not yet come into routine use, but is frequently used in clinical and experimental studies (4). Venous load ultrasonography score (VExUS) is a new systemic congestion scoring method based on inferior vena cava dilation and pulsed wave Doppler (PW-Doppler) morphology of the hepatic, portal and renal veins. It has been proposed as a score to assess systemic congestion.
This study aims to establish a cohort of 500 patients with hematological disease who undergoing allogeneic hematopoietic stem cell transplantation in the northwest region. All patients will be followed up at the outpatient clinic once a week after transplantation until 100 days after transplantation to observe the presence of acute graft versus host disease, acute kidney damage, and major cardiovascular adverse events. Serum samples from the day before pre-treatment, day after pre-treatment, 2 weeks,4 weeks,8 weeks and 12 weeks after transplantation will be detected by metabolomics sequencing.The primary objective is to explore the serum metabolic markers of acute graft versus host disease,acute kidney injury, and major adverse cardiac events within 100 days after transplantation,the secondary objective is to observe the high-risk factors for early complications.
Renal perfusion and neutrophil-mediated inflammation will be assessed in the kidney in sepsis patients with acute kidney injury using positron emission tomography. For marked water will be used for renal perfusion and a newly developed PET tracer molecule (11C-GW457427) with specific binding to neutrophil elastase which provides a measure of the amount of infiltrating neutrophils in the renal parenchyma for inflammation. The study is performed in a PET-CT camera where anatomical imaging takes place at the same time as the PET examinations.
In patients requiring renal replacement therapy (RRT) in the intensive care unit (ICU), continuous techniques are predominantly using due to better hemodynamic tolerance. The most employed techniques in ICU are continuous venovenous hemodiafiltration (CVVHDF) and continuous venovenous hemodialysis (CVVHD). To our knowledge, there are no prospective studies comparing the efficiency of these two techniques with the same dose of dialysis (and the same filter). In the CompEER study, we aim to compare the efficiency of CVVHD and CVVHDF on urea reduction rate in intensive care patients with acute kidney injury. The research hypothesis is that CVVHD citrate technique is as effective as CVVHDF heparin technique for urea reduction and provides prolonged and stable clearance, facilitating antibiotic management during RRT.
The goal of this observational study is to quantitatively assess the renal microcirculation changes by contrast-enhanced ultrasound (CEUS) and to obtain systemic hemodynamic information by ultrasound Doppler at the same time, to analyze the relationship between renal microcirculation changes and systemic hemodynamic changes, and to explore the diagnostic value of CEUS in critically ill acute kidney injury.