View clinical trials related to Cross Infection.
Filter by:Investigate the epidemiology, risk factors and impact on clinical practice of healthcare-associated infections with emergent highly drug-resistant (eHDR) pathogens, particularly carbapenem resistant enterobacteriaceae and glycopeptides-resistant enterococcus.
Biofilm is a microstructure organised into aggregates of microbiological species within a polymeric matrix. As early as the 2000s, the Centers for Disease Control and Prevention (CDC) recognised the possible role of the biofilm lining endotracheal endotracheal tubes in the development of ventilator-associated pneumonia (VAP) , the most common infection in intensive care, with a high morbidity and mortality rate and a significant increase in hospital costs. Targeting biofilm therefore now appears to be a new area of interest for limiting the risk of VAP, and this rationale has led to the development of an intraluminal for abrading biofilm deposited on the inside of the intubation probe . Evaluation of this type of strategy nevertheless justifies the introduction of more precise methods for characterisation of the biofilm. To this end, the investigator carried out an initial clinical study describing the biofilm on intubation probes, BIOPAVIR 1, showing the existence of several biofilm structures, each associated with a specific microbiological signature. Several limitations including a lack of power due to an insufficient number of patients and the use of number of patients, and the use of a confocal microscopy technique with poor axial without the possibility of acquiring metabolic images of the biofilm. Based on the previous description of biofilm by optical coherence tomography (OCT), and a recent experience with an optimised form of high-resolution OCT, called full-field OCT, the investigator hypothesise that full-field OCT will allow more accurate characterisation of biofilm, due to its high spatial resolution and its potential ability to capture metabolic activity in the biofilm BIOPAVIR 2 proposes to use the performance of full-field OCT to better characterise the biofilm lining endotracheal tubes in patients undergoing mechanical ventilation in intensive care units. This project represents a first step towards understanding the link between the development of biofilm on intubation and the occurrence of VAP
The purpose of the study is to determine the effectiveness, safety, and health-care utilization and costs of a preoperative Staphylococcus aureus (SA) screening and decolonization bundle, (5 days of nasal mupirocin ointment, chlorhexidine gluconate (CHG) body wash, and CHG mouth rinse), in eradicating SA carriage compared to other SA decolonization approaches. The study will conduct a single center pilot trial to compare efficacy of different SA decolonization approaches in pre-surgical patients, in eradicating SA carriage, after obtaining informed consent. The study will compare four different approaches, Arm 1) screen for SA carriage and using the three-drug decolonization bundle for 5 days among patients with SA colonization, non SA carriers in this arm will get two pre-op showers with CHG soap, Arm 2) all participants receive the three drug decolonization bundle, Arm 3) all receive pre-op nasal povidone iodine the day of surgery plus two pre-op showers with CHG soap, and Arm 4) all receive nasal alcohol gel the day of surgery plus two pre op showers with CHG soap. The primary efficacy outcome will be eradication of SA colonization at all 5 body sites. Secondary outcomes will be SA surgical site infections (SSIs), all SSIs, and SA healthcare associated infections (HAIs). The study will also compare eradication of SA from each of the 5 body sites as a secondary outcome.
29.3% of bacteremias in intensive care units (ICU) are linked to vascular devices, with a significant proportion related to central venous catheters, and an influence on both morbility and mortality. It is now accepted that microbiological biofilm plays a key role on both bacterial and fungal development on inner surface of vascular devices but there is yet a lack of clinical relevant data documenting a causal relation between biofilm formation and bacteremias. We assume that a more precise characterization of central venous catheter-deposited biofilm could help us better understand invasive medical device-related healthcare infections in critically ill patients.
Cell phones have become a fundamental accessory of our lives and clinical practice, often kept in contact with the body. Since most modern smartphones are equipped with touch screens, they can serve the function of reservoirs for pathogenic microorganisms; moreover, they can be the means of transmission of such microorganisms from the environment to humans. A number of observational studies are available in the literature evaluating the effectiveness of various sanitization methods in reducing the bacterial load of high-touch devices, both chemical and physical. To our knowledge, no real-world evidence is available comparing the residual effect of the two methods on the bacterial load of cell phones, since all available studies are carried out in the laboratory, with inoculums of predetermined bacterial loads whose suppression by the disinfectant is monitored over time, and involve laptops, tablets and keyboards.
The goal of this observational study is to facilitate standardized nontuberculous mycobacteria (NTM) outbreak investigations in healthcare centers. The main questions it aims to answer are: - Are respiratory NTM isolates identified as having membership in a suspected healthcare outbreak highly related based on whole genome sequencing? - Does epidemiologic investigation support healthcare-associated patient-to-patient NTM transmission? - Does healthcare environmental sampling support healthcare-associated NTM acquisition? If healthcare-associated NTM outbreaks are suspected, participants identified as having membership in a cluster of highly-related NTM infections will complete a demographic questionnaire.
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.
External ventricular drain infections are difficult to identify with current diagnostic methods. Initiation of antibiotic treatment is usually supported by indirect methods of bacterial infection, such as clinical signs or cerebrospinal fluid cell counts (CSF). As such, excessive treatment with antibiotics is common in these patients due to suspected infection while the incidence of true culture confirmed infections are less common. This study will evaluate three novel diagnostic methods for rapid direct bacterial detection in CSF, in order to assess if these can be used to guide antibiotic treatment in neurocritically ill patients, compared to CSF bacterial cultures.
This study is a cross-sectional study that examines the prevalence of Latent Tuberculosis Infection [LTBI], defined as individuals infected with Mycobacterium tuberculosis with no clinical evidence of disease, and the possible risk factors of LTBI in a large cohort of health care workers (HCWs) and students.
The purpose of this study is to evaluate if surface disinfection with organosilane associated with traditional cleaning reduces the incidence of healthcare-associated infections (HAIs) in intensive care units when compared with traditional cleaning alone.