View clinical trials related to Bacteremia.
Filter by:This is an open-label, expanded access study of exebacase used in addition to antistaphylococcal antibiotics in adult patients with persistent methicillin-resistant Staphylococcus aureus (MRSA) bloodstream infections (BSI), including right-sided endocarditis (R-IE), who are hospitalized with coronavirus disease 2019 (COVID-19). Patients with left-sided endocarditis (L-IE) are excluded. Patients will receive a single dose of exebacase. Patients will continue to receive antistaphylococcal antibiotics as prescribed by the treating physician. Exebacase Phase 3 study sites (Study CF-301-105) may participate in this Expanded Access study (Study CF-301-107). Exebacase, a direct lytic agent, is an entirely new treatment modality against S. aureus. Exebacase is a recombinantly-produced, purified cell wall hydrolase enzyme that results in rapid bacteriolysis, potent biofilm eradication, synergy with antibiotics, low propensity for resistance, and the potential to suppress antibiotic resistance when used together with antibiotics. Exebacase represents a first-in-field, first-in-class treatment with the potential to improve clinical outcome when used in addition to standard-of-care antibiotics to treat S. aureus BSI including IE.
In blood cultures, species considered as potentially contaminating (coagulase negative staphylococci (CNS), Bacillus spp., Corynebacterium spp., Cutibacterium acnes, Micrococcus spp., viridans group streptococci, and Clostridium perfringens) can, however, be responsable for true bacteremia. Blood levels of the prohormone procalcitonin (PCT) markedly increase in the early stages of bacterial infections. The aim of our study is to determine the role of plasma PCT as a biomarker differentiating blood culture contaminations from true bacteremia.
Approximately 40,000 Swedes suffer from sepsiseach year, about 20% die. Biomarkers that are sensitive to current or previous bacteremia are needed in the treatment of sepsis. Bacteremia from periodontal treatment is predictive and occurs in 13-75%. Cardiovascular disease (CVD) is the number one cause of death in industrialized countries and the impact of bacteria and their products need to be elucidated. The study's hypothesis is to utilize bacteremia from periodontal treatment to evaluate biological markers for current or previous bacteremia. A. What are the long term clinical, and 'omics related CVD-phenotypical effects from treating periodontal disease compared to an untreated group? B. Can biomarkers be used for detecting a bacteremia or previous bacteremia? C. Are the effects from bacteremia on cardiovascular biomarkers related to the individual's antimicrobial peptide profile? D. Does the presence of bacterial proteases, such as gingipain, relate to having a bacteremia from periodontal treatment and the systemic response from a bacteremia? Significance: The project has the potential to shorten the time to treat sepsis, which in turn shortens hospital stay and higher survival. The possible definition of protective AMP-profile could translate to future pharmacologic intervention and improve the treatment of sepsis as well as prophylactic treatment at dental treatments. An elucidation of the impact of bacteria and their products on CVD could lead to personalized medicine targeting anti-inflammation and anti-oxidative stress in subjects with periodontitis. As of March 2024 78 subjects have been included and we anticipate to keep the time-line that we set up.
A Phase 3, Multicenter, Randomised, Controlled, Open-Label Study to demonstrate noninferiority of temocillin (unauthorized investigational medicinal product IMP in Spain, but authorized in Belgium and UK) vs a carbapenem antibiotic (meropenem) in adults with bacteraemia due to third-generation cephalosporin-resistant Enterobacteriaceae. The duration of treatment will be between 7 and 14 days. From the 5th day of intravenous treatment, the sequential oral treatment is permitted if the patient meets appropriate conditions.
In sub-Saharan Africa, non-typhoidal Salmonella (NTS) are a frequent cause of bloodstream infection, display high levels of antibiotic resistance and have a high case fatality rate (15%). In Kisantu hospital in the Democratic Republic of Congo (DR Congo), NTS account for 75% of bloodstream infection in children and many children are co-infected with Plasmodium falciparum (Pf) malaria. NTS bloodstream infection presents as a non-specific severe febrile illness, which challenges early diagnosis and, as a consequence, prompt and appropriate antibiotic treatment.Moreover, at the first level of care, frontline health workers have limited expertise and diagnostic skills and, as a consequence, clinical danger signs that indicate serious bacterial infections are often overlooked. Basic handheld diagnostic instruments and point-of-care tests can help to reliably detect danger signs and improve triage, referral and the start of antibiotics, but there is need for field implementation and adoption to low-resource settings. Further, it is known that some clinical signs and symptoms are frequent in NTS bloodstream infections. The integration of these clinical signs and symptoms in a clinical decision support model can facilitate the diagnosis of NTS bloodstream infections and target antibiotic treatment. The investigators aim to develop such a clinical decision support model based on data from children under five years old admitted to Kisantu district referral hospital in the Democratic republic of the Congo. While developing the model, the investigators will focus on the signs and symptoms that can differentiate NTS bloodstream infection from severe Pf malaria and on the clinical danger signs that can be assessed by handheld diagnostic instruments and point-of-care tests. The deliverable will be a clinical decision support model ready to integrate in an electronic decision support system.
The purpose of this study is to assemble a multicenter prospective cohort of patients with enterococcal bloodstream infections (BSIs) to provide data on outcomes of patients with enterococcal BSIs for sample size calculations for future trials, as well as to characterize enterococcal isolates causing BSIs in order to comprehensively dissect the molecular epidemiology of infecting organisms for future studies.
In this observational study, it is aimed to investigate the mortality and morbidity rates of hospital-acquired blood stream infections that are treated in intensive care units (ICU). The effects of properties of the micro-organism such as type and antimicrobial resistance on the infection and its outcomes will be mainly explored. In addition, the impact of antibiotic options and other treatment modalities on survival of patients will be investigated. Twenty-seven different ICUs from Turkey will be included in this study.
This is a performance and reproducibility study to validate new or updated antimicrobials on the Accelerate PhenoTestâ„¢ BC kit. The data from this study will be used to support the submission to the FDA for clearance in the US and for global registrations of the device intended for in vitro diagnostic use.
GNB5 is an investigator-initiated multicentre non-inferiority randomized controlled trial which aims to assess the efficacy and safety of shortened antibiotic for patients hospitalized with a Gram negative bacteremia with a urinary tract source of infection (GNB). Five days after initiation of antimicrobial therapy for GNB, participants are randomized 1:1 to parallel treatment arms: 5 days (intervention) or minimum 7 days (control) of antibiotic treatment. The intervention group discontinues antibiotics at day 5 if clinically stable and afebrile. The control group receives antibiotics for a duration of 7 days or longer at the discretion of the treating physician. The primary outcome is 90-day survival without clinical or microbiological failure to treatment, which will be tested with a non inferiority margin of 10%.
The purpose of this study is to determine whether ceftolozane-tazobactam is as effective as meropenem with respect to 30 day mortality in the treatment of bloodstream infection due to third-generation cephalosporin non-susceptible Enterobacterales or a known chromosomal AmpC-producing Enterobacterales (Enterobacter spp., Citrobacter freundii, Morganella morganii, Providencia spp. or Serratia marcescens).