Active clinical trials for "Pneumonia, Ventilator-Associated"

To determine if the analysis of exhaled breath condensate correlates with the development & resolution of pneumonia.

The purpose of this study is to investigate the incidence of ventilator associated pneumonia and late complications by comparing two different cannulas and two different percutaneous tracheostomy techniques.

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.

VAP（Ventilator-associated pneumonia）is the most common complication of mechanical ventilation in severely ill patients. VAP is defined as pneumonia occurring 48 hours after patients receive mechanical ventilation, including pneumonia occurring within 48 hours after extubation. It is one of the important causes of hospital-acquired infection, and the incidence of VAP in children on mechanical ventilation is about 10%, or 7/1000 days of mechanical ventilation, and the overall mortality is 10-24%.Research has so far explained the relationship between bacteria isolated from human biological samples and VAP pathogens. Most studies are limited to the level of bacterial species, and there are few reports on bacterial genotyping, and there is a lack of scientific basis for the pathogenesis of VAP caused by bacteria in ventilator pipeline. The aim of the study is to investigate pathogen of the sputum in deep respiratory tract of patients with mechanical ventilation in PICU by the means of second generation sequencing (NGS).

Ventilator-associated pneumonia (VAP) is a frequent and serious complication in the ICU, defined by the development of a lung infection in patients ventilated for more than 48 hours. The incidence rate of this condition exceeds 18 episodes per 1000 days of mechanical ventilation in Europe. This nosocomial infection is associated with the highest mortality, ranging from 24% to 76% depending on the series. Reducing the incidence of VAP remains a challenge for clinicians, as evidenced by the many recent recommendations that have led to "bundles" to prevent the onset of this complication. Despite this, these recommendations do not propose a strategy to prevent the recurrence of PAVM, a frequent entity with a reported incidence of 25-35% and a non-consensual definition that increases antibiotic consumption, duration of mechanical ventilation and length of stay in the ICU . In fact, these recurrences can be linked to: Intrinsic patient risk factors (immunosuppression, severity of disease, major inflammatory response, reason for initial admission), Inappropriate initial antibiotic therapy (type, duration and dose administered), Characteristics specific to the pathogens encountered (virulence factors or resistance), Intercurrent complications during management of the initial pneumonia (ARDS, abscess, pleural empyema). Given the frequency of these recurrences, and the persistent doubts about the role of terrain and pathogen characteristics in their genesis, it seems appropriate to look at risk factors that could help anticipate these events. The aim of our study will be to identify the risk factors and mortality associated with the occurrence of a recurrence of VAP in patients hospitalized in the intensive care unit. An essential first step in this work will be to identify and then use the most consensual definition of recurrence of VAP, encompassing recurrence, persistence and superinfection. We will use the definitions in the protocol for the ASPIC trial, which is currently undergoing enrolment. The second step is to identify risk factors for recurrence. By identifying these factors, it could be possible to propose a prognostic score that would enable careful monitoring (or modification of antibiotic therapy) of patients most at risk of recurrence. Such a score could then be evaluated in a prospective study.

Mechanically ventilated patients are at risk of developing ventilator-associated pneumonia (VAP). Invasive pulmonary aspergillosis (IPA), the diagnosis of which motivates the implementation of specific treatments, is one of the causes of VAP. The hypothesis of the study is that the incidence of IPA is 12.4%. For each patient presenting with a suspicion of VAP and requiring a bronchoalveolar lavage (BAL), the diagnosis of API will be evaluated by biological examinations performed on blood and BAL. Medical and surgical history as well as clinical and biological data will be collected for 28 days or until discharge from the ICU.

The reported incidence of ventilator associated pneumonia (VAP) is 10 to 15 per 1,000 ventilator days. VAP leads to an excess cost exceeding $40,000 per patient and is associated with a crude mortality rate as high as 76%. The clinical criteria for the diagnosis of VAP have low specificity and may lead to unnecessary antibiotic use. The Clinical Pulmonary Infection Score (CPIS) and bronchoscopic approaches lower unnecessary antimicrobial use, antimicrobial resistance, and superinfection compared to the traditional clinical criteria. Based on the available evidence and local microbiology data, we have developed a VAP management protocol guided by CPIS or bronchoalveolar lavage (BAL) in adults with suspected VAP. These two approaches have not been compared against each other. Although the diagnostic studies in the CPIS guided approach are inexpensive and easily available, BAL has the potential to minimize the unnecessary use of antibiotics and reduce the development of drug resistant pathogens. In this study, we propose to test the hypothesis that BAL leads to a reduction in antibiotic use compared to CPIS in patients with suspected VAP. The study design will be a randomized, clinical trial comparing CPIS versus BAL. The primary outcome measure will be antibiotic utilization. The secondary outcome measures will be mortality, morbidity, development of resistant pathogens and superinfection and infection related financial burden. Completion of this trial will help us identify the best approach to avoid unnecessary antibiotic utilization and minimize the development of resistant pathogens (with their associated morbidity and mortality) in critically ill patients.

Identification of the microbial profile of Ventilator associated pneumonia causing microorganisms among Respiratory ICU patients .

This is a prospective single-arm pilot/feasibility trial of a bundled diagnostic stewardship intervention at the level of the microbiologic testing pathway in ventilator-associated pneumonia (VAP). The study objectives are to safely and effectively reduce antibiotic overuse and its attendant hazards (adverse drug events, Clostridioides difficile diarrhea and generation of multidrug-resistant organisms) among mechanically-ventilated patients. Participating ICUs will have the following three modifications made in their respiratory culture workflows for mechanically-ventilated patients: 1) providers will be required to select a valid indication for respiratory culture performance (worsening ventilator requirements, purulent sputum production, and/or new radiographic infiltrate on chest imaging); 2) respiratory cultures will be preferentially obtained via bronchoscopic or nonbronchoscopic BAL (by respiratory therapists) rather than via endotracheal aspiration; and 3) BAL samples will be sent for cell count and differentials, and respiratory culture results will not be released for samples with <50% neutrophils. The study will carefully monitor adherence to study interventions, ICU-specific antibiotic utilization rates, and important safety metrics including rates of mortality, ventilator-dependence and ventilator-associated events. The trial hypotheses are: Implementation of a VAP diagnostic stewardship bundle will be successfully implemented without significant increases in mortality or ventilator-associated events. Implementation of a VAP diagnostic stewardship bundle will be associated with a reduction in ICU-specific antibiotic utilization rates

The hyperinflation ventilator was performed in different modalities and ventilatory adjustments, with total pressure of 40cmH2O. The inspiratory volume, inspiratory time, mean airway pressure, inspiratory and expiratory flow, and bias flow were evaluated.