View clinical trials related to Bacteremia.
Filter by:The TAILORED-Treatment consortium was established to develop new tools aimed to increase the effectiveness of antibiotic and antifungal therapy, reduce adverse events, and help limit the emergence of antimicrobial resistance in children and adults.
Acute illness is the most common presentation of children attending ambulatory care settings. Serious infections (e.g. meningitis, sepsis, pyelonephritis, pneumonia) are rare, but their impact is quite large (increased morbidity, mortality, induced fear in parents and defensive behaviour in clinicians). Early recognition and adequate referral of serious infections are essential to avoid complications (e.g. hearing loss after bacterial meningitis) and their accompanied mortality. Secondly, we aim to reduce the number of investigations, referrals, treatments and hospitalisations in children who are diagnosed with a non-serious infection. Apart from the cost-effectiveness, this could lead to less traumatic experiences for the child and less fear induction for the concerned parent. Finally, we aim to support the clinicians to rationalise their antibiotic prescribing behaviour, resulting in a reduction of antibiotic resistance in the long run.
The study will evaluate the functionality of IMMAGES , an intravenous infusion device system, in patients hospitalized in Bait Balev hospital. The study will aim to determine how the IMMAGES system integrates within IV infusion therapy regime and what are the advantages and disadvantages, if any, of using this system within the prescribed setting.
Provide scientific and validated data to help International Authorities to set susceptible to antibiotics cut-off points in bacteremia by Enterobacteriaceae
The aim of this study is to compare the efficacy of daptomycin treatment versus vancomycin treatment in the treatment of methicillin resistant staphylococcus aureus (MRSA) bloodstream infections (BSI) due to isolates with high vancomycin minimum inhibitory concentrations (MIC) (i.e. > or equal to 1.5 ug/ml) in terms of reducing all-cause mortality. Our secondary aim is to compare clinical failure rates of daptomycin treatment versus vancomycin treatment and to compare time to microbiological clearance in patients treated with daptomycin versus those treated with vancomycin. Our primary hypothesis is that Daptomycin treatment is superior to vancomycin treatment in reducing mortality from BSIs due to MRSA with high vancomycin MIC from 25% to 10%.
Staphylococcus aureus bacteremia: impact of an intervention program in improving the clinical management and review of the clinical and molecular epidemiology.
Escherichia coli is the leading cause of community-onset gram-negative bloodstream infections. There has been a dramatic increase in the prevalence of extended-spectrum b-lactamases producing E. coli and K.pneumoniae in the community, which was considered to be exclusively a nosocomial pathogen in recent years. As a result, the treatment options for community-onset infections due to ESBL-producing E. coli or K.pneumoniae are limited and the initial empirical therapy is often ineffective and associated with increased mortality. Although there were some reports of the risk factors of community-onset ESBL producing E. coli in Spain, Korea, and Canada, few empirical data were available about China. Therefore, the investigators aim was to investigate the epidemiology, risk factors, and the hospital outcomes for patients with community-onset bacteremia caused by ESBL producing E. coli or K.pneumoniae in China.
To assure the uniform collection, handling, storage and transport of patient whole blood specimens and associated information to support validation of the T2 Bacteremia Assay.
To evaluate the efficacy of 2% chlorhexidine gluconate in 70% alcohol compared with 10% povidone iodine in reducing blood culture contamination in pediatric patients.
This is an observational prospective study of an in-vitro diagnostic (IVD) assay planned to enroll 632 subjects. The study will be conducted in two stages: Stage A is aimed at identifying individual biomarkers and constructing a multi-parametric diagnostic model, whereas Stage B is aimed at testing the multi-parametric diagnostic model using a fresh cohort of patients. A collection of clinical, radiological and laboratory data will be gathered in order to establish a final diagnosis. Blood samples will be analyzed and the levels of approximately 700 and 250,000 biomarkers will be determined using immunoassays and molecular measurements respectively. A final diagnosis will be determined based on a majority decision of a panel of three or more independent physicians. Based on the final diagnosis, the accuracy of individual biomarkers and combined sets of biomarkers for differentiating between distinct groups of patients will be evaluated.