View clinical trials related to Healthcare-Associated Pneumonia.
Filter by:RESPIRE is a randomized, unblinded, controlled study to measure the impact of a strategy based on a PCR test on the adjustment of antimicrobial therapy in immunocompromised patients suspected with ventilator-associated or hospital-acquired pneumonia (VAP/HAP) requiring mechanical ventilation (MV) in Intensive Care Unit (ICU). The gold-standard microbiological diagnostic method for pneumonia in the ICU is based on culture identification and antimicrobial susceptibility testing. Results are obtained in several days after the initiation of empiric antimicrobial therapy, exposing patients to a potential inappropriate broad-spectrum antimicrobial treatment. We aim to measure the impact of a PCR-based strategy to improve the percentage of patients with VAP or HAP receiving targeted antimicrobial therapy 24 hours after diagnosis compared to standard care
The use of corticosteroids in patients with severe community pneumonia, bacterial infection which kills lots of patients around the world, reduces the mortality of this infection. However, there are no studies with this type of drug regarding hospital-acquired pneumonia. This will be the first multicenter randomized trial to test hydrocortisone plus standard therapy in critical care patients with nosocomial pneumonia. This intervention is inexpensive and may improve the outcome of those patients, besides having an acceptable side effects profile.
The purpose of this study is to determine the value of M-ROSE(microbiological rapid on-site evaluation)in severe hospital-acquired pneumonia.
Microbiologic diagnosis of pneumonia is often limited by a long turnaround time of cultures. This randomized trial aims to evaluate the impact of BioFire FilmArray Pneumonia panel on (1) the proportion of appropriate/optimal early antibiotic regimen and (2) the time to the administration of appropriate antibiotics in patients treated for hospital-acquired or ventilator-associated pneumonia (HAP/VAP) in ICU.
Hospital Acquired and Ventilator Associated Pneumonia (HAP/VAP) pose a significant burden to patients admitted to the Intensive Care Unit (ICU). Reported incidence ranges from 10-16% in all ICU patients (including HAP and VAP) and around 20-30% in ventilated patients (VAP). Patients with HAP/VAP have a high mortality rate. The estimated attributable mortality of VAP is 6-13%. Randomized Controlled Trials (RCTs) are the gold standard for evaluating medical interventions, but are difficult to perform in this population. Several preventive and therapeutic treatment options are being developed that will require evaluation in phase-III trials. These trials are challenging due to the relatively low incidence of the outcome (e.g. HAP/VAP) or of the domain under study (e.g. specific antibiotic resistant infections) and the requirement of informed consent in critically ill patients. There is a need for a well-organized and well-trained international RCT network that enables efficient execution of a series of RCTs in this population. The aim of the current study is to set up an infrastructure to prospectively enroll patients at risk of HAP/VAP in ICUs in several European countries. Site personnel will be trained to obtain a GCP (Good Clinical Practice) certification (if not already done), to timely identify and enroll patients at risk of HAP/VAP, to timely identify occurrence of HAP/VAP, collect informed consent forms, collect source data, enter data into a clinical database, and use a dedicated system to reply to queries. Site sample collection, processing, identifying the causative organism, and antibiotic susceptibility testing will be validated and adapted if required where possible. Where site infrastructure and regulations allow, the possibility of automated data collection of included participants will be explored to ensure sustainability of the future platform. Furthermore, collected data will be used to inform future diagnostic, preventive and therapeutic trials. E.g. they may support assumptions in sample size calculations and expected number of enrolled participants, they may help in prioritizing interventions, or they may be used in simulations of adaptive trials to optimize decision rules.
Hospital-acquired pneumonia (HAP) is one of the most frequent complications and the main cause of antibiotics use in hospitalized patients, particularly in intensive care units (ICUs). The latest European and French recommendations for the management of HAP were published in 2017 and 2018. Gram-negative bacilli are frequently identified in this pneumonia. The experts discussed the issue of tailored-empiric antimicrobial therapy. Because delayed antimicrobial therapy is associated with poor outcomes, their conclusion was to reduce the time to deliver proper antimicrobial therapy, but to limit over-use of broad-spectrum molecules. Since delays in microbiological identification hinder the ability of clinicians to streamline therapy, rapid diagnostic with multiplex PCR, which decreases the time to organism identification by 2 days compared to conventional methods, is appealing, especially for gram-negative bacilli. The FilmArray® Lower Respiratory Tract Infection Panel is a rapid multiplex PCR which tests for the most frequently pathogens (18 bacteria including plenty of gram-negative bacilli +5 genes of resistance, and 9 viruses) involved in HAP. The FilmArray® Lower Respiratory Tract Infection (LRTI) Panel has a sensitivity and a specificity of 95% and 99% respectively and can be implemented in a personalized antimicrobial guidance to treat HAP due to gram-negative bacilli. The investigators hypothesized that a rapid multiplex PCR for guidance of empiric antimicrobial therapy, especially for gram-negative bacilli, reduces the time-to-proper antimicrobial therapy and reduces the risk of death of patients suffering of HAP. The investigators aim to assess the efficacy of an antimicrobial stewardship including the results of a rapid respiratory panel multiplex PCR for empiric antimicrobial guidance in patients with hospital-acquired pneumonia due to gram-negative bacilli. The investigators will use a before-after design to test the efficiency of an antimicrobial stewardship including a highly innovative intervention.
The purpose of this study is to determine the effectiveness of a universal, standardized oral care protocol on prevention of non-ventilated hospital-acquired pneumonia (NV-HAP) in the acute care setting. In the course of the year-long study, the research team will provide educational and materials support for oral hygiene on two interventional units (one medical; one surgical) and two control units (one matched medical; one surgical). At the end of the study, the research team will evaluate existing hospital data to determine the number of NV-HAPs in the interventional and control groups.
This is an open-label, randomized, multi-center, interventional, active-controlled Phase 4 study to evaluate the efficacy and safety of CAZ-AVI versus BAT in the treatment of infected participants with selected infection types (Hospital Acquired Pneumonia [HAP] (including Ventilator-Associated Pneumonia [VAP]); Complicated Urinary-Tract Infection [cUTI]; Complicated Intra-Abdominal Infection [cIAI]; Bloodstream Infection [BSI]) due to carbapenem-resistant Gram-negative pathogens in China.This study will be an estimation study. The statistical inference will be based on point estimate and confidence interval.
There is no clear consensus on the use of pneumonia severity index (PSI) developed for community-acquired pneumonia in hospital-acquired pneumonia cases. In another aspect, PSI is a relatively difficult scoring system that includes many parameters. This study evaluated whether lactate clearance could be used as a mortality marker instead of PSI in hospital-acquired pneumonia. As a result, lactate clearance was lower in the mortal group and when the diagnostic statistics were evaluated, it was seen that the sensitivity and specificity rates were significantly higher. In conclusion, lactate clearance has been evaluated as a strong predictor of mortality in hospital-acquired pneumonia.
PREV-HAP study is part of a larger project entitled 'Host-targeted Approaches for the Prevention and the treatment of Hospital-Acquired Pneumonia' (HAP2), funded by the European Union's H2020 research and innovation programme under grant agreement N°847782. HAP2 aims to develop stratified host-directed drugs and biomarkers to enhance the prevention and the treatment of HAP and develop precision medicine in infectious diseases. Its ambition is to revolutionize the management of HAP: capitalising on the novel concept of critical-illness related immunosuppression altering the host-pathogens interactions, the aim is to propose a complete reappraisal of the physiopathology of HAP based on the concept of respiratory dysbiosis. The main hypothesis of the PREV-HAP study is that human recombinant Interferon gamma 1b (rHuIFN-γ, Imukin) treatment can restore immunity in critically ill patients and prevent Hospital-Acquired Pneumonia. The hypothesesis is that the in vivo investigations of the host-pathogens interactions can be used for the stratification of patients into high/low risk and responders/non-responders to host-targeted prevention of hospital-acquired infections. The involvement of a state of critical-illness related immunosuppression in the susceptibility to hospital-acquired pneumonia is widely accepted, and an emerging trend is that the development of drugs for the treatment of this acquired immunosuppression will prevent infection and enhance outcomes of hospitalized patients. It has been demonstrated that the productions of IFN-γ by immune cells are decreased in critically ill patients, and that these defects are associated with the susceptibility to HAP. rHuIFN-γ has neither been tested nor is recommended as adjunctive treatment of patients with HAP. Based on these specific factors identified in the host response, it is proposed in this study to use rHuIFN-γ as novel preventive approach for HAP.