View clinical trials related to Acute Kidney Failure.
Filter by:Since its inception, KPMP has developed sophisticated protocols for collection and analysis of human kidney tissue, and for collection of biofluids. Members of the consortium have wide-ranging expertise in conducting clinical studies, processing kidney tissue, advanced structural and molecular analysis and complex bioinformatics analysis, which will be used to leverage effectively as a group to better understand kidney disease. This joint protocol aims to synergize the COVID-19 study efforts of KPMP academic research centers, to collectively study COVID-19, including its renal presentation using kidney tissue and/or biofluids from patients suffering from COVID-19. This will increase the breadth and depth of data available to the public to expedite discoveries, identify therapeutics, and improve outcomes for patients with COVID-19. It will additionally bring the expertise of KPMP investigators to bear against this pandemic.
The study aims to determine how historical cases of respiratory abnormalities are documented by clinicians in the electronic health records (EHR) of Memorial Hermann Healthcare System (MHHS) inpatient facilities. The knowledge gained from this study will support the design of modern data-driven surveillance approach to continuously collect, monitor and timely recognize postoperative respiratory abnormalities using electronic healthcare recorded data.
This study was designed to determine the association between preoperative and postoperative hypoalbuminemia and AKI in older age hip fracture surgeons, to determine which period of hypoalbuminemia contributes more to AKI development, the incidence of AKI according to anesthesia type, the presence of other factors affecting AKI development, the duration of hospitalization and cost- to be investigated.
The immune response to kidney damage during acute kidney injury (AKI) is an important contributor to the prolonged lack of renal function and progression of kidney injury. Most data related to intrarenal and interorgan pathways in AKI stem from animal research with sometimes conflicting results. Accurate evaluation of these processes in humans and identification of early diagnostic tools are critical for the development of strategies to prevent and attenuate AKI-related morbidity and mortality in patients. The aim of this study is to evaluate immune function and miRNA expression in hospitalised patients with and without AKI.
Acute kidney injury (AKI) is a major organ failure in septic shock. Current medical tests (serum creatinine and urea) cannot identify AKI until approximately 48 hours after it occurs. Neutrophil gelatinase-associated lipocalin (NGAL) may be able to predict ischemic AKI more effectively and faster than serum creatinine and urea levels. The purpose of this study is to take a blood sample from patients at admission and then at 24 and 48 hours after to test their plasma for NGAL and compare the NGAL levels to their creatinine and urea levels. The investigators hypothesize that NGAL is an earlier marker to classify the kidney failure as acute tubular necrosis or pre-renal azotemia than creatinine and urea.