View clinical trials related to Bacteremia.
Filter by:Current dosing regimens for vancomycin result in many young infants not reaching the target level of vancomycin in the blood at steady state (when the blood is in equilibrium at 24-48 hours).The purpose of this study is to assess an improved method of calculating the dose of vancomycin ('model-based dosing') in young infants with infections in order for them to achieve the target vancomycin level at steady state. A dosing calculator (which will be available through a web application) will be used for the dose calculation.
Presence of pelvic and liver injury on arrival in ED, gastrointestinal tract perforation and massive transfusion within the first 24 hours after trauma appear a significant risk factor for bacteremia. Scoring with the ISS, intra-abdominal and pelvic injury and presence of transfusion and shock at admission to ED appears a useful tool for identifying trauma patients at increased risk of bacteremia.
This is an prospective observational study assessing the effect of vitamin B12 on the odds of developing sepsis in patients with infection confirmed by a positive culture result. The hypothesis is that patients with infection confirmed by positive cultures who develop sepsis have lower vitamin B12 levels than patients infection, confirmed by positive cultures, who do not develop sepsis.
Eurobact II will investigate the mortality and morbidity of hospital-acquired blood stream infections in patients treated in intensive care units (ICU). It will investigate the effects of the micro-organism and its characteristics, such as type and resistance to antibiotics on the infection and its consequences. It will also investigate the effects of the antibiotics and other treatments on survival of patients. Eurobact II will include patients from multiple ICUs in multiple countries.
This study aims to assess whether ertapenem as an empiric treatment of third-generation-cephalosporin resistant Enterobacteriaceae (3GCRE) bacteremia is non-inferior to other carbapenems in term of 30-day mortality.
Study of incidence and risk factors of staphylococcus aureus bacteremia in patients with rheumatoid arthritis compared with the general population in a nationwide cohort of all adult members of the population from 1996 until 2017 using national registries
This is a 2-part study, with Part A being the randomized, controlled portion of the study in patients with ABC hospital-acquired bacterial pneumonia (HABP), ventilator-associated bacterial pneumonia (VABP), or bacteremia. Part B is the single-group portion of the study and includes ABC infections that are resistant to or have failed colistin or polymyxin B treatment, as detailed in the inclusion criteria.
This study evaluates the clinical benefit of a rapid test for fast diagnosis of bacteremia and fungemia from positive blood cultures in case of sepsis. This assay enables rapid identification of bacteria and fungi and allows to evaluate bacterial resistance to first line antibiotics. The clinical and medico-economic impact of this assay used in addition to the current diagnosis strategy (half of the patients) will be compared to the current diagnostic strategy alone (other half of the patient).
Sepsis is a life-threatening disease caused by a dysregulated host response to infection. This can lead to organ-dysfunction and septic shock, which is a subset of sepsis where underlying abnormalities increase mortality remarkably. Blood cultures are the gold standard for identifying pathogens in the bloodstream (bacteremia). It is based on cultivation techniques which, theoretically, can detect a single pathogenic cell from a patient sample. However, blood cultures have serious limitations, such as long time to result (3-7 days). This leads to the fact that only a small fraction of the patients obtain a correct diagnosis and in further consequence get the optimal antimicrobial treatment. Patients with sepsis should get antimicrobial treatment within the hour. Thus, physicians start treatment empirically, with broad-spectrum antibiotics. This puts a selective pressure on pathogens and has led to an increased amount of antibiotic resistance. Faster diagnostics are necessary to ensure an immediate and targeted treatment. In the EU-funded FAPIC project, two diagnostic systems that can be used with direct sample material from patients will be developed, avoiding the time-consuming cultivation of pathogens. In this study, the evaluation of the rapid diagnostics will be performed in patients with sepsis, suspected of bacteremia. To this aim, the performance of the diagnostic systems will be evaluated using blood samples that are collected in parallel with blood cultures. In addition, clinical data of the patients will be collected. In routine care, two blood culture sets (2x2 bottles) per patient are collected. One extra blood samples (EDTA, 9 ml) will be sampled with each blood culture set, totaling 2 samples per patient. In this study, patients presenting at the Emergency Department (ED), and the department of infectious diseases/nephrology will be included. The results will be used to estimate the performance, sensitivity, and specificity of the diagnostic systems compared to blood culture. Furthermore, in order to determine the severity of sepsis and to describe the patient population, clinically relevant parameters and laboratory parameters (ferritin, HLA-DR, serum lactate, SOFA score) will be assessed to determine its association with severity of disease and patient mortality. Evaluation will be done exclusively in the lab, and will not be used directly for the diagnosis or management of patients. Standard care will still be provided.
Empirical antibiotic and outcome in Community-onset Bacteremia Caused by third generation cephalosporin resistant Enterobacteriaceae