View clinical trials related to Ventilator Associated Pneumonia.
Filter by:The objective of this study is to assess the diagnostic performance of multiplex respiratory PCR (PCR-RM) compared to standard microbiological tests and its potential impact on the early adaptation of antibiotic treatment in intensive care patients with severe pneumonia.
Advanced stages of the response to life-threatening infection, severe trauma, or other physiological insults often lead to exhaustion of the homeostatic mechanisms that sustain normal blood pressure and oxygenation. These syndromic presentations often meet the diagnostic criteria of sepsis and/or the acute respiratory distress syndrome (ARDS), the two most common syndromes encountered in the intensive care unit (ICU). Although critical illness syndromes, such as sepsis and ARDS, have separate clinical definitions, they often overlap clinically and share several common injury mechanisms. Moreover, there are no specific therapies for critically ill patients, and as a consequence, approximately 1 in 4 patients admitted to the ICU will not survive. The purpose of this observational study is to identify early patient biologic factors that are present at the time of ICU admission that will help diagnose critical illness syndromes earlier, identify who could benefit most from specific therapies, and enable the discovery of new treatments for syndromes such as sepsis and ARDS.
Multicentric observational prospective cohort study in 15 (fifteen) hospitals representing all Brazilian regions. The main objective of this project is to evaluate the incidence of Ventilator-Associated Pneumonia (VAP) when using the current ANVISA criteria for VAP versus VAE criteria defined by the National Healthcare Safety Network (NHSN). The diagnostic accuracy of the two criteria for identifying VAP will also be compared, characterizing other events associated with mechanical ventilation that are not VAP, when applicable. The study also aims to adjudicate ventilator-associated pneumonias reported to ANVISA using current epidemiological diagnostic criteria.
Ventilator-associated pneumonia (VAP) is an infection of the pulmonary parenchyma in patients exposed to invasive mechanical ventilation for at least 48 h and is part of ICU-acquired pneumonia. VAP is one of the most frequent ICU-acquired infections. Reported incidences vary widely from 5 to 40%, depending on the setting and diagnostic criteria. The estimated attributable mortality of VAP is around 10%. Investigators will focus this study on the current understanding of the epidemiology and treatment of VAP caused by multi-drug resistant (MDR) organisms. The MDR organisms are significant threats to the prognosis of the ICU patient. They are challenging to treat because of a limited number of newer antibiotics available for treatment. Understanding their distribution and sensitivity pattern may provide clues on how to deal with this significant problem. The current study examines the distribution of MDR organisms in VAP and its incidence and outcome. Investigators will also study the sensitivity pattern of these MDR organisms and how it affects the patient outcome. All patients admitted to adult ICU will be scanned, positive respiratory cultures will be noted, and those with VAP will be studied in detail. Patient data will be collected using the hospital information system.
The purpose of this study is to see if the amount of antibiotics given for ventilator-associated pneumonia (VAP) can be decreased in order to reduce the risk of adverse effects associated with antibiotics, while at the same time ensuring the participant's safety.
Background: Ventilator associated pneumonia (VAP) is a recognized healthcare-associated infection in lungs parenchyma that occurs in patients in which they are connected to mechanical ventilator. And this infection will occur after completing 48 hours of connection to the ventilator. Aim study aims to evaluate the effect of implementing VAP prevention bundle training program on nurses' knowledge and compliance among nurses in intensive care unit in Salmaniya Medical complex in Bahrain. Methodology: A quantitative quasi- experimental study was conducted in the main ICU of Salmaniya Medical complex in Bahrain. Purposive sampling technique was used, and 58 ICU staff nurses were enrolled at data collection period. Tools used for data collection was a self-administrative questionnaire to assess ICU nurses' knowledge and observational checklist was used to assess their compliance. Data were analyzed with descriptive and inferential statistics
Ventilator-associated pneumonia is the leading cause of nosocomial infection in the ICU. Cephalosporinase-producing Enterobacteriaceae have an increasing incidence. Infections in cephalosporinase-producing patients require the use of Cefepime during probabilistic antibiotic therapy, the repeated use of which will lead to a significant risk of selection of resistant mutants. The involvement of cephalosporinases being infrequent, the prediction of their presence during a VAP would make it possible to reduce the consumption of Cefepime and thus to take part in the prevention of selection of bacterial mutants resistant to beta-lactams. The main objective of the research is to determine the risk factors for the involvement of cephalosporinase-producing enterobacteria during episodes of ventilator-associated pneumonia (VAP) in hospitalized patients. The secondary objectives are to describe the epidemiology of cephalosporinase-producing enterobacteria in the ICU and to compare the risk factors for the presence of a cephalosporinase-producing germ not without its production being derepressed with those present in situations of cephalosporinase derepression.
Cluster randomized controlled trial comparing two bathing strategies in critically ill patients. The intervention group will receive daily bathing with chlorhexidine. The control group will receive usual care.
Ventilator-associated pneumonia is the leading cause of nosocomial infection in the ICU. The pathogens responsible are multiple, but enterobacteria constitute a major source of pathogens involved. Within this family, Klebsiella spp. and Escherichia coli are the two most frequent genera, with Klebsiella spp. often present in severe forms. The factors associated with the occurrence of Ventilator-associated pneumonia and its adverse course depend on host defenses and the virulence of the pathogen. The virulence of Klebsiella spp. depends on several structures, notably the presence of a capsule, the particularities of its lipopolysaccharide, its adhesins (type 3 fimbriae), its capacity to capture iron (siderophores). The objective of this work is to evaluate the role of these different virulence mechanisms in the evolution of Ventilator-associated pneumonia and the hospital prognosis.
This is a single centre, open-label, feasibility randomised controlled trial. The study aims to assess the feasibility of conducting an RCT to compare the PneuX ETT with standard care in hospitalised patients requiring mechanical ventilation. The patient population for this study are those who are experiencing critical illness requiring intubation and ventilatory support. Patients will be randomised in equal proportions into one of 2 arms: to be intubated using a Venner PneuX Endotracheal Tube (ETT) or using the standard tube. For this feasibility study, a total of 50 patients will be randomised into two groups (25 in each). All patients will be recruited at a single site (University Hospital of Wales, part of Cardiff & Vale UHB). The study will investigate several feasibility measures including recruitment, delivery of the intervention (including device-related adverse events), acceptability and adherence to the intervention and sampling, use of Peptest to measure microaspiration events, rate of pepsin positive samples, rate of tracheobronchial colonisation, volume of sub-glottic aspirate, rate of VAP, length of ICU and hospital stay, demonstrate the validity of study documentation and provide preliminary data for 50 patients. The data will inform the pilot and main phase of the study.