Use of Reticulocyte Ratio and Neutrophil / Lymphocyte Ratio in the Diagnosis of Ventilator-associated...
Ventilator-associated Pneumonia (VAP)In this study, the utility of changes in the ratio of Ret-He and NLR as an early inflammation marker for VAP will be evaluated.
To Compare Endotracheal Tube (ET) With Subglottic Suction Drainage and Standard ET in the Incidence...
Ventilator-Associated PneumoniaVentilator 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.
Different Oral Colonization of Gram-negative Bacteria in ICU Patients When Using Chlorhexidine at...
ChlorhexidineVentilator Associated PneumoniaThis study will assess the utility of different chlorhexidine mouthwash concentrations on ICU patients to decolonize their oral cavities from gram-negative bacteria, since this is a non-desirable condition that leads to higher mortality rates and longer hospitalization times. One group will receive the 0.12% chlorhexidine mouthwash and the other group will receive the 2% chlorhexidine mouthwash.
Assesment of the Endotracheal Tube Cuff Pressure Values in ICU Pateints Before and After Training...
Respiratory Tract DiseasesRespiratory Tract Infections3 moreThere is no accepted standard for the frequency of monitoring endotracheal tube cuff pressures (ETCP). the investigators plan on comparing two strategies for monitoring ETCP in mechanically ventilated patients. Nowadays ETCP is evaluated once every 24 hours. Next, the investigator want to conduct training for medical and nursing staff. After the training, ETCP will be measured every 8 hours. The aim of the study is to prove that more frequent pressure control (3 times a day) reduces the occurrence of abnormal ETCP.
Subglottic Secretions Surveillance to Predict Bacterial Pathogens Involved in Ventilator-associated...
Ventilator-associated PneumoniaMany studies provide evidence for the benefit of lower respiratory tract surveillance, mostly by culture of endotracheal secretions, to predict bacterial pathogens (especially multi-drugs resistant pathogens) involved in VAP. The DEMETER study (NCT02515617) assessing the medico-economical impact of the subglottic secretions drainage (SSD) provides the opportunity to evaluate the accuracy of the subglottic secretions culture surveillance to predict pathogens involved in VAP (in comparison with the concomitant endotracheal secretions surveillance). These subglottic and tracheal secretions culture surveillance will be masked to the investigators of the DEMETER Study. This ancillary study will be performed in 14 centers participating to the DEMETER study
Effects of Airway Conditioning Devices on Ventilator Associated Pneumonia:a Randomized Clinical...
Acute Lung InjuryThe main hypothesis are: Passive and Active-Passive airway conditioning devices reduce the incidence of ventilator associated pneumonia Active-Passive airway conditioning devices reduce the incidence of endotracheal tube obstruction Nurses' workload is reduced with Passive and Active-Passive airway conditioning devices
Saline Instillation Before Tracheal Suctioning and the Incidence of Ventilator Associated Pneumonia...
Mechanical VentilationCritically Ill PatientsCompare the incidence of ventilator associated pneumonia with or without tracheal isotonic saline instillation before tracheal suctioning
Direct E-test on Bronchoalveolar Lavage From Patients With Ventilator-acquired Pneumonia
Ventilator Acquired PneumoniaBackground: Ventilator-acquired pneumonia (VAP) is the most prevalent nosocomial infection in intensive care units (ICUs). Early microbiological diagnosis and initial administration of appropriate antimicrobial therapy are associated with a better outcome. Broad-spectrum antibiotics should therefore be administered initially. However, inconsiderate antibiotic use can increase the prevalence of multi-resistant bacteria. Purpose: A rapid antimicrobial susceptibility method is required to decrease the unnecessary use of empirical broad-spectrum antibiotics. The aim of this study is to compare the efficiency of a rapid antibiogram, provided by E-test strips directly applied to bronchoalveolar lavage (BAL) samples and analysed at 24 h, to that obtained with standard methods of culture which provide a later result. Study design: This will be an open-label, prospective cohort study of consecutive patients with VAP, conducted in a medical ICU. In addition to standard culture methods, an E-test will be performed directly on BAL samples and analysed at 24 h. Each standard BAL culture will be used as a control for the E-test method. Primary outcome: The occurrence of major errors, defined as isolates determined to be susceptible by the E-test but resistant by standard culture methods. Secondary outcomes: The occurrence of minor errors (defined as isolates determined to be resistant by the E-test and susceptible by the standard method), and a comparison of two methods of seeding BAL samples on Mueller Hinton agar plates (swabbing method, flooding method). Eligibility criteria: Inclusion criteria: all patients with suspected VAP (defined by a Clinical Pulmonary Infection Score ≥5) undergoing BAL will be eligible. Exclusion criteria: contraindications for BAL (PaO2/FIO2 <100, risk of bronchoscopy-related haemorrhagic complications), secondary exclusion of patients with negative cultures, defined by a threshold of bacteria <104 CFU/ml. Interventions: BAL samples will be cultured by standard methods and the minimal inhibitory concentration (MIC) of bacteria to the usual antibiotics will be determined using standard procedures. At the time of BAL collection, a rapid antibiogram will be performed by placing E-test antibiotic strips (AB Biodisk) directly onto Mueller-Hinton agar plates seeded with the BAL specimen (both by flooding and swabbing). E-test strips will be impregnated with cefoxitin, piperacillin-tazobactam, cefepime, imipenem, ciprofloxacin and amikacin. At 24 h, the E-test plates will be photographed and then examined separately by both a bacteriologist and a medical ICU physician following a consensus method. The final E-test results will be compared with the standard MIC cultures.
Strategies to Prevent Pneumonia (SToP Pneumonia)
Ventilator Associated PneumoniaThis study tests whether special oral care provided by nurses to critically ill patients who are on a breathing machine (mechanical ventilator) can help to reduce the build-up of dental plaque on the teeth and reduce the risk of pneumonia.
Effect of Angulus on Patient-elevation Compliance
Ventilator Adverse EventVentilator Associated Pneumonia4 moreVentilator-associated events (VAE) are a scourge of critical care settings and hospital systems at large. There is extensive evidence that ventilator-associated pneumonia (VAP) and related VAEs increase mortality rates in critically ill patients by up to 50%, while simultaneously increasing cost of care. C Best-practice guidelines state that positioning ventilated patients at an angle between 30-45 degrees significantly reduces the potential for VAP and other VAE to develop. While the intent of the guidelines is to govern patient elevation angle, the lack of a mechanism to accurately measure patient elevation requires that nurses rely on the head-of-bed (HOB) protractor - a tool which reflects the angle of the bed, not the patient - to measure compliance. Depending upon the position and posture of the patient in the bed, a patient's elevation angle may be significantly different from the HOB angle. Critical care teams currently rely on built-in HOB protractors and digital inclinometers that measure the angle of the bed not the patient. Angulus, LLC has developed a dual-component Angulus sensor to fill this gap in critical care technology. Angulus enables critical care practitioners to instantaneously understand a patient's elevation, identify when the patient is outside of the desired 30-45 degree recumbency scope, and efficiently correct the patient's orientation with immediate feedback. Angulus supports real-time minute-to-minute data display as well as longitudinal aggregation of data.