View clinical trials related to Renal Insufficiency, Acute.
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.
A quasi experimental study that aims to verify whether the incorporation of VExUS in patients with AKI in the Intensive Care Unit (ICU) may prompt tailored interventions to increases the number of days free from Renal Replacement Therapy (RRT) during the first 28 days.
This prospective study will take place at Hotel Dieu de France hospital in Lebanon. One hundred children undergoing cardiac surgery for congenital heart disease between May 2020 and May 2021 will be included. After obtaining the informed consent of the parents, demographic and surgical information will be collected. Serum creatinine, lactic acid, urinary neutrophil gelatinase-associated lipocalin marker (NGAL), and oxygen (O2) saturation will be measured before the operation. A pediatric NIRS sensor will be placed on the right side below the costo-vertebral angle overlying the right kidney and continuous regional oxygen saturation (rSO2) will be recorded every 5 to 10 minutes throughout the operation until 24 hours after surgery. The children will be divided into 2 groups; 50 each. Grp 1: No clinical intervention was performed based on NIRS values. Grp 2: several maneuvers are performed such as an increase in cardiac output, temperature, hemoglobin to optimize the value of NIRS > 80%. All patients will receive standard standard care during the study period and continuous infusion of furosemide (0.5-1 mg / kg / 6 hours) within the first 24-48 hours postoperatively will be administered to all patients. Creatinine and lactic acid will be measured immediately postoperatively and then once a day until D2 and D7. The urinary NGAL marker will be dosed immediately postoperatively and then at 2h, 6h, 12h and 24h with hourly monitoring of diuresis and NIRS until 24h postoperatively.
Acute kidney injury (AKI) and chronic kidney disease (CKD) impose a significant global health burden. Yet, no effective therapies currently exist for AKI, and only a few are available for CKD. Despite significant effort from industry and academia, development of pharmacologic therapies for AKI and CKD has been hampered by: Non-predictive animal models The inability to identify and prioritize human targets The limited availability of human kidney biopsy tissue A poor understanding of AKI and CKD heterogeneity Historically, AKI and CKD have been described as single, uniform diseases. However, growing consensus suggests that different disease pathways lead to different subgroups of AKI and CKD (AKIs and CKDs). Access to human kidney biopsy tissue is a critical first step to define disease heterogeneity and determine the precise molecular pathways that will facilitate identification of specific drug targets and ultimately enable individualized care for people with AKI and CKD. A number of research centers across the United States are collaborating to bring state-of-the-art technologies together to: - Ethically obtain and evaluate kidney biopsies from participants with AKI or CKD - Define disease subgroups - Create a kidney tissue atlas - Identify critical cells, pathways, and targets for novel therapies The KPMP is made up of three distinct, but highly interactive, activity groups: - Recruitment Sites: The recruitment sites (RS) are responsible for recruiting participants with AKI or CKD into the longitudinal study and performing the kidney biopsy. - Tissue Interrogation Sites: The tissue interrogation sites (TIS) are responsible for developing and using innovative technologies to analyze the biopsy tissue. - Central Hub: The central hub is responsible for aggregating, analyzing, and visualizing the generated data and providing scientific, infrastructure, and administrative support for the KPMP consortium.
The study evaluate the effect of a membrane in polysulfone covered with vitamin E (ViE15-A, ASAHI Kasey, Tokyo, Japan) versus non-vitamin E polysulfone membrane (REXEED-15A, ASAHI Kasey, Tokyo, Japan) in critically ill patients admitted to intensive care undergoing continuous extracorporeal dialysis (CRRT). The current randomized study is designed to assess the effect on the levels of oxidative stress, pro and anti-inflammatory cytokines and the mode and amount of death of monocytic cell lines using ViE 15-A in comparison withe REXEED-15A. The investigators hypothezise that the ViE15-A versus REXEED-15A will have different effect on the levels of oxidative stress, pro and anti-inflammatory cytokines and the mode and amount of death of monocytic cell lines.
Determination of Tissue Transit Time (TTT) as a parameter with high prognostic value to predict the functional course of the differential renal function and the development of the differential renal function after pyeloplasty
During ultra endurance events, athletes experience extreme physical and mental demands, sometimes at the limits of the adaptive response to human physiology. This is particularly true for the renal function, and some evidence for acute renal failure has already been shown, sometimes leading to dialysis. However, the precise mechanisms involved in acute renal failure in such ultra endurance races are not clearly elucidated. The aim of our study is to estimate glomerular filtration rate from serum and urinary creatinine and cystitin C at the beginning and at the end of a 110 km ultra endurance race. Our hypothesis is that during the ultra endurance race, renal function may be injured, with a risk for the athlete.
This is a Phase 1, open-label, single-dose study of the safety, tolerability, and pharmacokinetics of Minocin® (minocycline) for injection in subjects with renal insufficiency.
Acute kidney injury (AKI) is a common complication after cardiac surgery. Mismatch in renal oxygen demand-supply may be an important pathogenetic factor. Levosimendan has been shown to improve renal blood flow, glomerular filtration rate and renal oxygenation in healthy controls after cardiac surgery. In order to investigate the effect of levosimendan in patients with AKI after cardiac surgery, the investigators plan a randomized placebo controlled trial. 30 patients will receive levosimendan or placebo. Renal blood flow and filtration fraction will be measured using infusion clearance technique of para-aminohippuric acid and Chromium ethylenediaminetetraacetic acid (Cr-EDTA) respectively.
This is a two-staged study of a single dose of 200 mg of bosutinib given to subjects with renal impairment and matching healthy volunteers. In Stage 1, only subjects with severe renal impairment and subjects with normal renal function will be enrolled. Subjects with mild and moderate renal impairment will be enrolled in Stage 2 if the results from Stage 1 suggest a substantial difference in PK profiles between subjects with severe renal impairment and subjects with normal renal function.