View clinical trials related to Pneumonia, Ventilator-Associated.
Filter by:A Phase 3 comparative study to determine the efficacy, safety and tolerability of Aztreonam-Avibactam (ATM-AVI) ± Metronidazole (MTZ) versus Meropenem (MER) ± Colistin (COL) for the treatment of serious infections due to Gram negative bacteria.
Abstract Background: Neonatal ventilator associated pneumonia (VAP) is a major hospital-acquired infection in acute care settings, associated with high mortality and poor outcome. VAP is considered a preventable infection if the risk factors are managed effectively. The purpose of this study is to evaluate prevalence of ventilator associated pneumonia, its causative organisms, its risk factors and outcome at our NICU. This study used CDC guidelines for infant's ≤1 year old to diagnose neonatal VAP, in period from April 2018 to March 2019.
Prospective, multicenter observational study to collect Escherichia coli (E. coli) isolates originating from mechanically ventilated intensive care unit (ICU) patients; in order to characterize phenotype and genotype of E. coli strains retrieved from the lower respiratory tract of ventilated patients.
Ventilator-associated pneumonia (VAP) is the most frequent life-threatening nosocomial infection in the ICU. Oropharyngeal colonization with bacterial pathogens is the first step toward lung infection. Oral hygiene with Chlorhexidine mouth wash (CMW) is among the most widespread preventive measure to prevent VAP. Precise microbial documentation of CMW efficacy on oropharyngeal colonization is lacking. Investigators wish to determine CMW antimicrobial efficacy in ICU ventilated patients and to measure chlorhexidine residual concentration in patients' saliva at the same time-points after CMW.
The objective of the study is to prove that after the third day of invasive mechanical ventilation a three-day course of inhaled amikacin reduces the incidence of subsequent VAP. Parallel two group double blind randomized controlled clinical trial. Individual randomization, performed on day 4 of invasive mechanical ventilation, will be stratified on centre in order to account for variations in VAP prevention bundle implementation and use of systemic antibiotics the day of randomization. Patients will be treated three consecutive days with inhaled amikacin or placebo. Patients will be followed up daily in the intensive care unit for the occurrence of VAP according to international guidelines until day 28.
Ventilator Associated Pneumonia (VAP) is associated with increased hospitalisation, increased health care cost and high morbidity and mortality. The incidence of VAP increases with duration of mechanical ventilation. There is limited data especially from India on the incidence of VAP and also the role of subglottic aspiration in its prevention. The aim of this study is to determine the role of subglottic suction in the incidence of VAP.
Ventilator-associated pneumonia (VAP), is a type of pneumonia that develops more than 48 hours after endotracheal intubation, is common in intensive care units (ICUs). It is estimated to be responsible for 27% to 47% of ICU-acquired infections. The pathogenesis of VAP is complex but typically involves colonization of the aerodigestive tract with pathogenic bacteria, the formation of biofilms, and microaspiration of contaminated secretions. Preventing carriage of potentially pathogenic micro-organisms from the aerodigestive tract is an infection control strategy used to reduce the occurrence of VAP. One novel intervention is the administration of prophylactic probiotics which restore non-pathogenic flora that compete with pathogens, modulate local and systemic immunity, and decrease intestinal permeability and thus can be beneficial in preventing nosocomial infections in critically ill patients. The role of the probiotics in preventing VAP in mechanically ventilated patients is inconclusive. Some evidence indicates that probiotics may reduce the incidence of VAP by inhibiting pathogen adhesion, improving gut mucosal barrier function, reducing bacterial translocation and up-regulating the immune system. Furthermore, guidelines remain inconclusive regarding the role of commensal oropharyngeal flora (COF) as a causative agent in VAP, mainly due to a scarcity of studies in this research field. However, there is evidence that COF may cause pulmonary infection, mostly in immunocompromised patients.
Breath samples from patients with Ventilator Acquired Pneumonia (VAP) will be analyzed to identify Volatile Organic Compounds (VOC) that have been specifically associated with VAP in previous animal models. Primary outcome measures will include the assessment of the zNose Diagnostic Breath Analysis System in the early detection of VOC's associated with VAP.
This is a prospective study with three specific aims: (1) To convene a consensus conference to develop a guideline for antibiotic use in infants (age < 3 yrs) with suspected ventilator-associated infection; (2) To evaluate outcomes before and after implementation of the antibiotic guideline; (3) To evaluate changes in the tracheal microbiome over the course of mechanical ventilation
The primary objective of this study is to compare all-cause mortality at Day 14 in participants receiving cefiderocol with participants receiving the comparator, meropenem, in adults with hospital-acquired bacterial pneumonia (HABP), ventilator-associated bacterial pneumonia (VABP), or healthcare-associated bacterial pneumonia (HCABP) caused by Gram-negative pathogens.