View clinical trials related to Acute Kidney Injury.
Filter by:The purpose of this observational study is to measure the number of calories delivered from fluids used in continuous renal replacement therapy (CRRT). We are doing this research study because the fluids used in this treatment may deliver an important number of calories. In the future this could help better estimate how much nutrition patients in the Critical Care Unit should get every day from other sources like tube feeding or nutrition through a person's veins.
Acute kidney injury (AKI) is a well-recognized complication after cardiac surgery with cardiopulmonary bypass (CPB). The aim of this study is to reduce the incidence of AKI by implementing remote ischemic preconditioning and to evaluate the dose-response relationship using the biomarkers urinary [TIMP-2] *[IGFBP7] in high risk patients undergoing cardiac surgery.
Contrast media-induced nephropathy following diagnostic and therapeutic cardiac catheterization.
This study evaluates the effects of aminophylline on serum creatinine and urine volume of AKI Patient.Half of participants will receive aminophylline and furosemide in combination,while the other half will receive only furosemide.
Background: Acute kidney injury (AKI) following coronary artery bypass graft (CABG) surgery is a major complication occurring in 1% to 53% of patients (depending on how it is defined) with the pooled rate of 18.2% and unfortunately 2.1% of them require renal replacement therapy. Cardiopulmonary bypass (CPB)-associated AKI increases mortality 2-4 fold regardless of AKI definition. It is also associated with increased risk of postoperative stroke, acute myocardial infarction, cardiac tamponade, heart failure, and lengthened intensive care unit and hospital stays. Even minor elevations of postoperative serum creatinine (SCr) have been associated with a significant increase in 30-day mortality, from a 3-fold increase risk for a small elevation of up to 0.5 mg/dL from baseline to an 18-fold increase risk of death with a SCr rise greater than 0.5 mg/dL. The pathogenesis of CPB-associated AKI is complicated and includes hemodynamic, inflammatory and other mechanisms that interact at a cellular level. To date, despite several clinical trials of pharmacologic interventions, none of them have demonstrated conclusively efficacy in the prevention of AKI after cardiac surgery. Remote ischemic preconditioning (RIPC) is a phenomenon in which brief ischemia of one organ or tissue, provokes a protective effect that can reduce the mass of infarction caused by vessel occlusion and reperfusion. In CABG surgery, cardiomyocyte injury caused by myocardial protection failure is predominantly responsible for adverse outcomes. RIPC was shown to reduce troponin release 24 h postoperatively in children undergoing corrective surgery for congenital heart disease. Other studies demonstrated that RIPC using brief ischemia and reperfusion of the upper limb reduces myocardial injury in adult patients undergoing CABG surgery. Due to the similarities between the mechanisms of ischemia-reperfusion injury produced by RIPC and those proposed for AKI after CPB, we decided to test the hypothesis that RIPC prevents AKI in patients undergoing CABG surgery. Methods: 180 patients who fulfill all inclusion and exclusion criteria will be divided into case and control groups (90 patients in the case and 90 patients in the control group). Patients in the treatment group will receive three sequential sphygmomanometer cuff inflations on their right upper arm after induction of anesthesia in the operating room. The cuff will be inflated by the OR nurse up to 200 mmHg for five minutes each occasion, with five minutes deflation in between inflations. Following this pre-conditioning phase, surgery will be started. The entire pre-conditioning phase will last 30 minutes. Patients in the control group will have the sphygmomanometer cuff placed on their right upper arm, but the cuff will not be inflated. Similar to patients in the treatment group, patients in the control group will undergo the same 30 minute delay before starting surgery. Complete blood count (CBC), SCr, liver function test (LFT), will be checked before surgery. After surgery, SCr will be checked daily. If AKI occurs, it will be managed and dialysis will be done if the patient requires it. All patients will undergo electrocardiogram and LFT after CABG surgery during hospital course.
Intravascular administration of iodinated contrast media is an essential tool for cardiovascular imaging and percutaneous coronary interventions. Nonetheless, the increasing incidence of contrast-induced nephropathy (CIN) has become an important and prognostically relevant problem along with the spreading of diagnostic and interventional procedures. CIN is largely dependent on oxidative damage and represents a considerable cause of renal failure, being associated with prolonged hospitalization and significant morbidity/mortality. The most effective treatment strategy of this serious complication remains prevention, and several preventive measures have been extensively investigated in the last few years. Pre-procedural hydration is the best known and mostly accepted strategy. The administration of sodium bicarbonate (HCO3) has controversial effects, and is likely to be ineffective when the infused dose is unable to achieve adequate urine alkalinization. Since alkaline pH suppresses the production of free radicals, increasing urine pH would be an attractive goal for CIN prevention. In a randomized clinical trial the investigators will test the hypothesis that urine alkalinization with either oral or i.v. bicarbonate on top of hydration alone is the main determinant of CIN prevention in a population of patients with moderate or severe chronic kidney disease scheduled for coronary angiography and/or angioplasty. If the investigators, demonstrate non-significant differences in urine alkalinization (primary endpoint) and incidence of CIN (secondary endpoint) between the bicarbonate groups, a practical implication will be that oral administration is preferable for practical reasons over the administration of i.v. bicarbonate.
Identification of risk factors of acute kidney injury (AKI). It is hypothesized that there might be a correlation between brain oximetry, tissue saturation of thenar muscle and marker of AKI in blood - neutrophil gelatinase-associated lipocalin (NGAL) - measured in blood samples during the first post-op day.
The investigators objective is to assess the utility of renal biomarkers in predicting renal recovery following institution of Venoarterial Extracorporeal Membrane Oxygenation (VA-ECMO). Tissue biomarkers of renal injury may provide a real-time indication of renal function and the likelihood of renal recovery in patients having cardiogenic shock and requiring VA-ECMO. In these patients, traditional markers of kidney function (urine output and serum Creatinine level) do not accurately represent renal function.
Postoperative acute renal failure is a frequent complication after a Transcatheter Aortic Valve Implantation (TAVI). The current practice cannot predict Acute Kidney Injuries (AKI) early enough to prevent an organic dysfunction triggering, consequently, cortical tubular necrosis. Several recent studies in cardiac surgery have shown that sonographic criteria, the Renal Resistive Index (IRR), and a urinary biomarker, the NephroCheck™, could predict AKI promptly. These markers, sonographic and biologic, have both the advantage to be non-invasive and easy to perform. Each marker seems to have sensitivity and specificity to predict AKI promptly after cardiac surgery. Therefore, the IRR and the NephroCheck™ test could become essential tests to guide clinicians in determining rapidly whether a patient will develop AKI after a TAVI procedure. However, so far, no study has tested the NephroCheck™ in patients undergoing TAVI. Therefore, the aim of this prospective observational study will be first to determine the effectiveness of the NephroCheck™ to predict AKI at an early stage after a TAVI procedure. The secondary outcome will be to compare the NephroCheck™ with the RRI in predicting at an earlier stage than the traditional method an AKI.
This is a prospective randomised control trial 1:1 in patients at risk of developing Acute Kidney Injury after cardiac surgery comparing the RenalGuard® System to current medical treatment. 110 patients will be recruited for each group. The aim of the study is to assess whether the RenalGuard® system reduces Acute Kidney Injury (AKI) after cardiac surgery as compared to current practice.