View clinical trials related to Acute Kidney Injury.
Filter by:Establish an integrated evaluation system of ultrasound technology for the prognosis of acute kidney injury, and in order to achieve non-invasive, reliable early diagnosis "gold standard". Set up collabration with the expert in National Cheng Kung University Medical Center of Taiwan who did a lot of excellent work in basic research of prevention the progression of acut kidney injury. Study the experience about prevention progression of kidney disease in clinical and basic field. Establish cooperation with the professional in Hong Kong University of Science and Technology. To set up the system of natural products research and assess the Astragalus medicinal value.
The administration of intravenous crystalloids is ubiquitous in the care of the critically ill. Commonly available crystalloid solutions contain a broad spectrum of electrolyte compositions including a range of chloride concentrations. Recent studies of associated higher fluid chloride content with acute kidney injury and mortality but no large, randomized trials have been conducted. In preparation for a large, cluster-randomized, multiple-crossover trial comparing 0.9% sodium chloride to physiologically-balanced isotonic crystalloids (Lactated Ringers or Plasmalyte-A) in intensive care unit patients, this pilot study will enroll all patients admitted to the medical intensive care unit at a single tertiary center for a sixth month period. The primary objective will be to test the ability of an electronic order entry tool to ensure administration of assigned study fluid or record contraindications to assigned study fluid. The pilot study will also demonstrate the feasibility of collecting demographic, severity of illness, fluid management, vital sign, laboratory, acute kidney injury and renal replacement therapy, and outcome data in an automated, electronic fashion.
A prospective international, multi-centre, prevalence study on the epidemiology of the use of renal replacement therapy for ICU patients who have acute kidney injury and chronic end stage kidney disease.
Acute Kidney Injury (AKI) develops in 88% to 30% of critically ill patients admitted to an intensive care unit and is a strong predictor of mortality.Therefore any management strategy that prevents progression of renal risk to injury or failure has the potential to improve outcomes in these patients.Conventional management of acute oliguria in shock has been to blindly 'push' fluids to improve renal perfusion or to give loop diuretics once fluid loading has been considered as accomplished. However both volume overload and 'blind' attempts at fluid removal can worsen renal injury and have been associated with higher mortality by venous overcongestion and inappropriate hypovolemia. It seems reasonable to assume that a bedside test to visualize volume status and renal perfusion may assist in improving outcomes in this cohort.The investigators developed a goal-directed ultrasonographic protocol to provide immediate hemodynamic information in acutely oliguric patients with shock as well as a management algorithm for guiding therapy. The investigators incorporated IVC diameter measurement, respiratory variation and response to a passive leg raise to assess whether further fluid boluses were required and a measurement of renal perfusion to determine whether diuretics or renal replacement therapy were indicated. The investigators aim to measure the effects of this management protocol on the rates of AKI in the study participants as compared to prior to the implementation of the protocol.The study design is a prospective, observational. Since this is a proof of concept study, the projected sample size is 40 patients. An interim analysis will be carried out after 20 patients are enrolled and a further 20 will be enrolled as necessary
1. To examine two main predictor variables independently and then jointly in stratified and multivariate analyses for the outcomes of CSA-AKI, MARCE, need for RRT, and inpatient mortality, and the composite, as well as the outcomes of 30 day rehospitalization or death, and finally for the days out of hospital and alive adjusted to person-year of time 1. Days from coronary angiogram performed with IOCM to cardiac surgery (1, 2, 3, etc) 2. Thakar Acute Renal Failure (ARF) score (1 to 17) 2. To examine the interrelationships between time in days between angiogram and surgery and the ARF Score with the Society of Thoracic Surgery (STS) Risk score for mortality
Contrast-induced acute kidney injury (CI-AKI) is a significant iatrogenic complication of contrast media use associated with prolonged hospitalization, cardiovascular events, persistent kidney damage and increased risk of all-cause mortality. When remote ischemic preconditioning is applied before percutaneous coronary intervention (PCI), the kidneys can be protected against ischemia-reperfusion injury and subsequently CI-AKI. In this randomised controlled trial, diabetic nephropathy patients undergoing PCI as part of their assessment and treatment of cardiovascular disease are randomized to receive RIPC or control sham preconditioning.
Postoperative acute renal failure is a frequent complication after cardiac surgery. The current practice cannot predict Acute Kidney Injuries (AKI) early enough to reduce a significant kidney assault and prevent an organic dysfunction leading to cortical tubular necrosis. Several recent studies in cardiac surgery have shown that, both sonographic criteria, such as the Renal Resistive Index (IRR) and urinary biomarkers can predict AKI promptly. These urinary biomarkers are the 'tissue inhibitor of metalloproteinases' (TIMP-2) and the 'insulin-like growth factor binding protein' (IGFBP7). These two proteins are sought noninvasively, directly in the urine, within the same test called 'NephroCheckTM'. These markers, ultrasonographic and biologic, have the advantage of being easy to perform, accessible and seem to have both high sensitivity and specificity to predict AKI promptly after cardiac surgery. Thus, the IRR and the NephroCheckTM test could become essential tests to guide clinicians in determining rapidly whether a patient will develop AKI. However, so far, no study has compared these markers yet. Therefore, the aim of this prospective observational study will be to compare the effectiveness of the IRR with the NephroCheckTM to predict AKI promptly after cardiac surgery. The secondary outcome will be to determine the threshold of these markers from which patients will be likely to develop AKI
The purpose of this study is to determine if there is an excess risk of acute kidney injury (AKI) with Serotonin-norepinephrine reuptake inhibitors (SNRIs) as compared to Selective serotonin reuptake inhibitors (SSRIs), two classes of medication used for the treatment of depression.
Acute kidney injury (AKI) complicates over 25% of cardiac surgical procedures where it increases mortality up to fourfold. The incidence of AKI is increasing, the pathogenesis is poorly understood, current diagnostic tests lack specificity and sensitivity, and there is no effective treatment. Improving outcomes in patients at risk of AKI has recently been defined as an NHS priority. The primary aim of this study is to determine how plasma derived microvesicles (MV) or more specifically MV associated microRNAs (miRNA) regulate survival and signalling in post cardiac surgery AKI. The study involves a clinical and experimental research project that will combine laboratory analyses of circulating MV and miRNA from clinical studies. The study will specifically consider how MV and miRNA alter inflammatory signaling in kidneys after cardiac surgery, how these are modified by important clinical risk factors, and whether they may serve as early biomarkers of injury.
The purpose of this study is to learn more about how to identify signs of early chronic kidney diseases in children who were born prematurely with low birth weight (less than 3 ½ pounds). Researchers plan to compare the kidney function in children who experienced acute kidney injury (AKI) in the Neonatal Intensive Care Unit (NICU) with those who did not experience it. Evidence from several studies and our experience at UVA show that older children who experienced AKI while in the Pediatric Intensive Care Unit (PICU) have increased risk of developing early chronic kidney disease, and they also show early changes in the urine and blood that is consistent with early chronic kidney disease. In this study, the investigators hope to determine if any of these changes can be detected in early childhood, and if so, at what age we can start detecting these changes.