View clinical trials related to Pneumonia, Ventilator-Associated.
Filter by: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.
Multicenter, randomized, controlled, open-label trial to assess if semiquantitative multiplex PCR assay, as compared to conventional microbiology, can reduce the percentage of patients without microbiological diagnosis in the first 24 hours from HAP/VAP suspicion, thus allowing early de-escalation.
Based on the hypothesis that keeping the endotracheal cuff pressure in the optimum range will reduce the incidence of vip, we aimed to compare the Manual (intermittent) measurement method with the Automatic (continuous) measurement method in reducing the incidence of vap.
Oral care with chlorhexidine was used to be considered an effective way to prevent ventilator-associated pneumonia (VAP). However, recent evidence revealed that oral care with chlorhexidine may associate with higher mortality and increasing risks of acute respiratory distress syndrome due to the aspiration of chlorhexidine. In addition, the majority of relevant studies in the past have only focused on cardiothoracic intensive care unit (ICU) or post-operation patients. Thus, whether this is effective and safe for medical ICU patients remains unclear.
Clinical presentation of patients after severe injury such as a severe infection, trauma or extensive burns is characterized by the simultaneous occurrence of dysregulation of the initial inflammatory response and immunosuppression associating quantitative and functional alterations of innate and adaptive immune cells. These acquired immune dysfunctions have been associated with an increased susceptibility to nosocomial infections, foremost among which are ventilator-associated pneumonia (VAP). Despite the implementation of a set of preventive measures, the incidence of these VAP remains high in intensive care, with rates in Europe of 1.5% per day of ventilation. Post-aggressive immunosuppression is characterized by the decrease in the expression of HLA-DR (belonging to the type II major histocompatibility complex, MHC-II) on the surface of monocytes (mHLA-DR). The administration of interferon gamma (IFNγ) can restore the level of mHLA-DR and may possibly improve the prognosis as an adjuvant therapy associated to antibiotics. However, the level of proof of this therapeutic strategy is low, limited to small cohorts of patients, or clinical studies without prior immunodepression assessment. The objective of this study is to conduct a randomized, double-blind, placebo-controlled superiority trial to assess the effect of IFNγ administration on the duration of mechanical ventilation following the first episode of VAP in patients having an HLA-DR < 8000 AB/C All reported data about recombinant human IFNγ 1b for the control of secondary infections in patients with septic shock used the dose of 100 micrograms per day by subcutaneous route for 3 to 5 days . At this dose, no retrospective study has reported any serious adverse effects and recombinant human IFNγ 1b allows an increase in monocyte membrane expression of mHLA-DR.
The goal of this observational clinical trial is to learn about the role white blood cells (macrophages) play in lung inflammation in people with Acute Respiratory Distress Syndrome (ARDS). The main questions it aims to answer are: 1. How does the immune system respond to different kinds of lung injury and inflammation and how do those processes differ from each other? 2. What roles do the cells that live in the lungs (macrophages) play in turning off inflammation? How does their role differ from other cells that are called to the lung to help repair injury (recruited macrophages)? 3. Will more frequent testing of lung cell samples help reduce the time it takes to start treatment for ventilator-associated pneumonia (VAP) and therefore reduce the rates of initial therapy failure? Participants will be in the intensive care unit (ICU) on a mechanical ventilator (machine that helps patients breathe) because they have ARDS or are on a mechanical ventilator for some other reason (control group). The following will happen: 1. Participants will be given 100% oxygen through the breathing machine (mechanical ventilator) for 3-5 minutes. This is called pre-oxygenation. 2. A lung specialist (pulmonologist), a member of Dr. Janssen's research team, or respiratory therapist will place small amount of saline into the lung using a long catheter going through the breathing tube. 3. The fluid will be removed with suction and will be sent to the laboratory for testing. 4. This will be repeated two more times over the course of 10 days, or less if participants are taken off of the ventilator. The procedure will be performed no more than three times. 5. Two nasal brushings will be taken from the participants' nose. 6. Approximately 3 tablespoons of blood will be removed by putting a needle into the participants vein. This is the standard method used to obtain blood for tests. A total of 9 tablespoons will be taken for research purposes over the course of this study 7. Data including the participants age, sex, severity of illness, and other medical conditions will be recorded to determine how these can affect the white blood cells. 8. If bacteria are isolated from the fluid in the participants lung, the participants' physician may choose to place the participants on antibiotics to treat an infection. 9. A follow-up phone call may be made by a member of the research team after discharge from the hospital. At this time, the participant may be invited to participate in the Post-ICU clinic at National Jewish Health.
Ventilator-Associated Pneumonia (VAP) is a bacterial respiratory infection that patients in the Intensive Care Unit (ICU) often get when they cannot breathe for themselves and require mechanical ventilation. It is linked to higher chances of death, a longer stay in the hospital, higher costs, and the use of more antibiotics. Options to help prevent or treat this disease are in development and will require evaluation in future clinical trials. The goal of POS-VAP is to build and continuously train a network of ICUs to be prepared for doing these trials, to facilitate their execution.
Efficacy of cotrimoxazole as a de-escalation treatment for adult patients Ventilator-Associated Pneumonia in intensive care unit Multicentre randomized non-inferiority trial comparing cotrimoxazole to standard antibiotic therapy for enterobacterial VAP
A multicenter Phase 2 study to evaluate the pharmacokinetics, efficacy, and safety of intravenous BV100 combined with Polymyxin B in adult patients with VABP suspected or confirmed to be due to CRAB
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.