View clinical trials related to Enterobacteriaceae Infections.
Filter by:The goal of this observational study is to investigate how bacterial populations from the intestine and mouth of patients change during the hospitalization period and evaluate if some populations of specific bacteria increase or decrease the risk of acquiring an infection or becoming colonized by pathogenic bacteria. Participants will have the following samples collected during enrollment: stool samples (maximum 2x/week), blood draws (1x/week), oral swab (1x/week).
Carbapenemase-producing Enterobacteriaceae (CPE) infections are emerging infections that pose a therapeutic challenge. These infections mainly occur in patients with prolonged hospitalization and repeated exposure to antibiotics. Certain strains, notably VIM-producing strains, may remain sensitive to carbapenems. CPE VIM strains are rare in France, but represent the main CPE strains in many countries. They are historically the main type of carbapenemases isolated at the Strasbourg University Hospital.
Colistin can be used to treat the infection caused by carbapenem-resistant enterobacteriaceae(CRE). In China, patients diagnosed with Hospital-acquired-pneumonia (HAP)or bloodstream infection caused by CRE are recruited, and randomly assigned to two groups, and in one group the patients accept treatment with colistin, however in another group, the patients accept treatment without colistin. The efficacy and safety of the treatment between the two groups are compared.
The aim of this study to predict carbapenem resistant Klebsiella spp. earlier in our patients monitored in our Intensive Care Unit in the future, using artificial intelligence. Patients with bloodstream infection and pneumonia caused by Klebsiella spp. will be comparatively examined in two groups, as sensitive and resistant. Resistance will be attempted to be predicted with deep machine learning.
The goal of this clinical trial is to propose a seamless intervention linking rapid bacterial isolate identification and antibiotic resistance gene detection and targeted antibiotic prescription to minimise time between infection onset and appropriate treatment in patients with Pseudomonas aeruginosa or carbapenemase producing Enterobacterales infections. This is an investigator initiated trial. The primary hypothesis is that these interventions will lead to improved clinical outcomes amongst patients with hospital-acquired bloodstream infection, hospital-acquired pneumonia or ventilator-associated pneumonia due to carbapenem non-susceptible Pseudomonas aeruginosa or Enterobacterales, compared to standard antibiotic susceptibility testing. Patients will be randomised to either a control or intervention arm. Patients randomised to the intervention arm will have relevant specimens analysed by rapid microbiological diagnostics and will have early availability of ceftazidime-avibactam if appropriate. Patients randomised to the control arm, will have samples analysed by clinical microbiology laboratories using standard of care diagnostics. Antibiotics will be available to these patients as per usual institutional practice.
Carbapenem resistant Enterobacteriaceae (CRE) colonization of patients discharged from hospitals is a source of transmission to the community. In a cluster randomized controlled trial the effect of a bundle of interventions will be assessed on CRE transmission from CRE+ index patient discharged from hospital to HouseHold (HH) members. The districts in two provinces will be randomized to intervention or control. An information, communication, education and hygiene intervention, developed in collaboration with local health authorities, will aim to improve hygiene and decrease antibiotic (AB) use. The effect will be evaluated on CRE transmission between HH members, livestock and environment through consecutive CRE screening using fecal and hospital effluent samples cultured on carbapenem selective media. Knowledge, Attitudes, Practice surveys with smartphones will assess health seeking, AB use and hygiene adherence, hence detecting the effect of interventions. If transmission of CRE +/- Colistin Resistant Enterobacteriaceae (CoRE, common among livestocks) is detected the source will be investigated including livestock and food, targeted information will be given and evaluated. In hospitals the effect of cohort care will be assessed on CRE acquisition, hospital acquired infection, treatment outcome, costeffectiveness and contamination in sewage water. Mechanisms of resistance, relatedness of CRE isolates in different One Health departments, and rate of CRE transmission from humans to animals and vice versa, will be assessed through Whole Genome Sequencing (WGS).
The first aim of this study is to explore the drug resistance mechanism of Enterobacteriaceae bacteria and to evaluate the treatment effect of ceftazidime-avibactam (CAZ-AVI) in combination with aztreonam (ATM) against Metallo-β-lactamases (MBL) producing Enterobacterales in vivo. The investigators then use CRISPR/Cas9 technology to remove Enterobacteriaceae bacteria resistance and virulence genes
This study is being performed to see if 18F-FDS is a useful imaging agent for diagnosis of bacterial infections. Position Emission Tomography (PET)/ computed tomography (CT) scans will be obtained after intravenous injection of 18F-FDS to determine biodistribution and pathophysiology in diseased subjects.
Among enterobacteria, ESBL production is the leading cause of multidrug resistance. The first cases of ESBL-producing Enterobacteriaceae (EBLSE) infections were described in the 1980s and subsequently spread worldwide. Since the turn of the century, the prevalence of EBLSE infections, particularly among E. coli and K. pneumoniae, has increased dramatically. The emergence of multidrug-resistant enteric bacteria (MRE) is currently a real public health problem. The European network for monitoring antibiotic resistance in cooperation with Santé Publique France evaluated the rate of resistance to third generation cephalosporins (C3G) among clinical strains at 10.2% for Escherichia coli and 28.8% for Klebsiella pneumoniae. The consequences of infections with multi-resistant enteric bacteria, mainly represented by ESBL, are currently well known, both from an individual point of view (increased mortality and length of hospitalization) and from a collective point of view (increased costs of care). The current reference treatment for ESBL-producing Enterobacteriaceae infections is based on carbapenems. Imipenem and meropenem are the two most commonly used carbapenems in clinical practice. Despite their similar spectrum of action, these two molecules have different pharmacokinetic properties, notably concerning their half-life and their elimination routes (mainly urinary for imipenem, mixed: biliary and urinary for meropenem). Some studies have suggested that imipenem has a low impact on the digestive microbiota. However, no studies comparing the impact of imipenem and meropenem have been conducted. Woerther et coll. explained in their work that the digestive microbiota confers resistance to colonization by MREs. The impact of antibiotics on the microbiota probably leads to a breakdown of this barrier and a loss of this resistance to colonization. Moreover, each antibiotic therapy does not impact the digestive microbiota in the same way and it seems that antibiotics with a high activity against strict anaerobic species and/or a high biliary elimination are the most impacting. It is therefore essential, in the era of multidrug resistance, to look at the influence of antibiotics on the digestive microbiota and on the emergence and carriage of MRE. In a context where the incidence of multi-resistant bacteria is constantly increasing, it seems relevant to conduct a study aiming at comparing the respective impact of the use of imipenem and meropenem on the emergence of MRE and on the digestive microbiota at the individual level. This study aims at comparing the microbiological impact (in terms of emergence of bacterial resistance and in terms of impact on the diversity of cultivable digestive bacteria). It will be a comparative study with matching of patients according to age, service and previous duration of hospitalization. Indeed, the usual management of patients with an infection requiring treatment with a carbapenem is different between the 2 participating centers. Thus, according to the usual management of patients in these 2 participating centers, patients at Avicenne Hospital are treated with meropenem and patients at the Paris Saint-Joseph Hospital Group with imipenem, except in the case of a need for a high daily dose (osteoarticular infection, for example) due to the neurological toxicity of imipenem at high dosage. In the case of high-dose use, meropenem will be the preferred molecule.
Carriage of multi-drug and extensive-drug resistant Gram negative bacteria (MDR-GNB) is associated with an increased risk of infections by these bacteria for the carriers and a high risk of dissemination both in the healthcare setting and the community; the main MDR-GNB reservoir is the fecal microbiota. To prevent both infections and dissemination, effective measures to decolonize subjects carrying MDR-GNB are urgently needed. Animal models, case reports and cohort studies suggest fecal microbiota transplantation (FMT) may be efficient for MDR-GNB decolonization.