View clinical trials related to Vancomycin.
Filter by:Pharmacokinetics of antibiotics in critically ill neonates, infants and children on extracorporeal membrane oxygenation (ECMO).
Bacterial blood stream infections are common and life-threatening. Bloodstream infections have historically been identified using blood cultures, which often take 24-72 hours to result and are imperfectly sensitive. Early administration of antimicrobial therapy is a fundamental component of the management of adults presenting to the hospital with a suspected bloodstream infection and/or sepsis. But because blood cultures frequently take 24-72 hours to result, patients are typically treated with empiric, broad spectrum antibiotics. In a meta-analysis of sepsis studies, empirical antibiotic therapy was inappropriate for the organism that ultimately grew in culture in almost half of patients. Thus, patients are commonly exposed to unnecessary antibiotics without evidence of infection or with evidence of infection requiring narrow antibiotic selection. For example, current guidelines recommend the use of empiric intravenous vancomycin as coverage for a bloodstream infection caused by the bacterial pathogen methicillin-resistant S. aureus (MRSA). Vancomycin requires careful monitoring due to its narrow therapeutic range and high risk of toxicity. Administration of vancomycin to patients who do not have MRSA can lead to avoidable adverse drug events and costs, as well as drive antimicrobial resistance. There has been increasing interest in using rapid diagnostic tests that identify bacteria directly from whole blood samples without relying on growth in culture, referred to as "direct-from-blood" tests, to guide early therapeutic management of patients with suspected bloodstream infections in addition to standard blood cultures. One such FDA-approved, direct-from-blood test is the T2Bacteria® Panel. This panel's performance as a direct-from blood test for bacterial pathogens has been described in previous studies. A recent meta-analysis of largely observational studies reported a faster transition to targeted microbial therapy and de-escalation of empirical microbial therapy, as well as a shorter duration of intensive care unit stay and hospital stay for patients who received this direct-from-blood test. We will conduct a pragmatic, randomized clinical trial examining the effect of using the T2Bacteria® Panel direct from-blood testing, compared to using blood cultures alone (standard of care), on antimicrobial receipt and clinical outcomes for adults presenting to the hospital with suspected infection and who have been initiated on empiric therapy with intravenous vancomycin.
Hospitalized adult participants prescribed vancomycin by their treating physician will be randomized to receive vancomycin via continuous or intermittent infusion and measures of kidney function and injury will be collected.
A widely used antibiotic is vancomycin. To ensure adequate exposure to vancomycin, drug doses are adjusted based on whole-blood concentration measurements, a practice known as therapeutic drug monitoring (TDM). The need for TDM of vancomycin is well established, as described in several national and international guidelines, for dose-optimization in order to achieve successful treatment and to prevent toxicity and reduce microbial resistance. A sampling method for TDM that has become more popular over the recent years is dried blood spotting (DBS). DBS is a design of blood sampling consisting of positioning a drop of capillary blood, preferably taken from the finger, on filter paper. Unlike venous blood sampling (the current gold standard for TDM of vancomycin), DBS seems to have advantages for the patient. The finger prick is less invasive than venipuncture. DBS also enables patients to perform one or multiple finger prick(s) themselves, with the possibility to sample at multiple time points. Due to the fact that vancomycin is nephrotoxic, it would be very efficient and convenient to measure creatinine in the same dried blood spot as the vancomycin. This study is a clinical validation study to validate the DBS assay for vancomycin.
This is a single-center prospective pharmacokinetic study. The principal objective is to collect new data among patients with hematologic cancer to develop a Bayesian population pharmacokinetic model and to improve dose adjustment of intravenous vancomycin. Approximately 40 subjects meeting the inclusion and no exclusion criteria will be enrolled in the study. Vancomycin blood concentration will be measured at steady-state at three different moment for each participant : immediately before the infusion, 1 hour after the infusion and during the elimination phase (at 3, 4 or 5 hours after the infusion). This additional vancomycin serum concentration in the elimination phase will be used to estimate more precisely the vancomycin pharmacokinetic parameters in this specific population including the distribution volume and the elimination of the molecule. Ultimately, the purpose of this study is to create a nomogram to predict the optimal initial vancomycin dosing in adult patients with a hematologic cancer.
The objective of this study was to investigate the current situation of vancomycin (VAN)-associated acute kidney injury (VA-AKI) in China and identify the risk factors for VA-AKI, as well as to comprehensively examine the risk related to concurrent drug use. Further, the investigators assessed the outcomes of patients who developed VA-AKI and the risk factors for these outcomes. Finally, the investigators aimed to provide suggestions for improving the prevention and treatment of VA-AKI in China.
The implantable pulse generator (IPG) is a device that generates electrical current to stimulate the spine, heart, or brain for various chronic conditions. In neurosurgery, the IPG is implanted in a subcutaneous pocket under the collarbone. This pocket is highly avascular and thus, antibiotics administered intravenously cannot reach a potential surgical site infection (SSI). SSIs cause millions of health care dollars to be wasted due to repeat surgery and hospital re-admissions. The investigators hope to to determine the effects of "intrawound vancomycin-saline and IV antibiotics" compared to "saline and IV antibiotics" on the incidence of IPG SSI rates 6-months post-surgery.
The purpose of this study is to determine whether fidaxomicin and vancomycin followed by taper and pulse vancomycin treatment are superior to standard vancomycin treatment for the treatment of recurrent Clostridium difficile infection.
Pharmacokinetics of antibiotics in critically ill neonates, infants and children