BPOI (Berlin Pediatric Oxygenation Index) - A New Predictor for Imminent Failure of HFNC in Children...
Respiratory Failure (Pediatric Patients)The investigators developed an index that integrates different flow-settings in High-flow nasal cannula (HFNC) therapy with non-invasively measured clinical parameters of oxygenation in pediatric patients. This observational study is designed to evaluate this index and to determine a cut-off value for imminent HFNC failure.
Prevalence of Respiratory Impairment During IBD
Chronic Obstructive Pulmonary DiseaseAsthma2 morePatients will be recruited during a routine consultation with a physician in the hepato-gastroenterology department. At the end of the consultation, patients will have to complete the following questionnaire: "European Community Respiratory Health Survey" which allows the screening of patients at risk of chronic respiratory diseases (asthma, COPD, bronchiectasis, emphysema). In the event of a declaration of functional respiratory signs, a consultation with a pulmonologist will be systematically proposed. At the end of this consultation, if the doctor deems it necessary, further investigations will be proposed and/or regular follow-up organised. The main objective of this study is to estimate the prevalence of respiratory symptoms leading to a diagnosis of chronic respiratory disease in patients with inflammatory bowel diseases (IBD) (Crohn's disease and UC). The main criterion for judgement will be the frequency of functional respiratory signs (wheezing, dyspnea, cough, sputum) reported by IBD patients through an adapted self-report questionnaire.
Monitoring of Patients With Chronic Respiratory Failure Treated With Non-invasive Home Ventilation:...
Chronic Hypercapnic Respiratory FailureSingle-center retrospective study conducted on a population of patients with chronic hypercapnic respiratory failure treated by non-invasive ventilation at home, followed at the CHRU of Nancy. The objective is to assess the contribution of reading the NIV card with a standardized grid in their follow-up. The main objective is to assess the inter-observer agreement of a standardized NIV card reading grid, the secondary objective is to compare the results of NIV card reading between the usual NIV card reading method in the service and this same method completed by the addition of the standardized reading grid. The hypothesis is that the use of a standardized NIV card reading grid improves patient follow-up by standardizing their care.
Ventilator Induced Diaphragm Dysfunction in Pediatric Critically Ill Patients (VIDD)
Respiratory FailureRespiratory Distress Syndrome1 moreevaluation of diaphragmatic disfunction eventually occurred in pediatric patient undergoing mechanical ventilation therapy
Assessments of Diaphragm-pleural Mechanics During the Weaning From Prolonged Mechanical Ventilation...
Ventilator WeaningRespiratory FailureWeaning failure from mechanical ventilator is commonly seen in respiratory failure and increases duration of ventilator use, ICU stay, ventilator associated pneumonia and even mortality. The diaphragm serves as one of the most important respiratory mechanism and its function differs the weaning success rate. Since 1980s, ultrasonography assessment in diaphragm movement were developed and further discussion upon whether it serves as a predicting factor for extubation failure. The measurement includes difference of diaphragm thickness, diaphragm excursion or the movement of liver and spleen. Multiple studies targeted intubated patients with different measurement methods and all resulted with good weaning prediction value.6 Of all the studies, only one study targeted tracheostomy tube patients. They reported diaphragm thickness fraction >36% as cutoff value is associated with successful spontaneous breathing trial (SBT), with a sensitivity of 0.82, specificity of 0.88. However, little comparison with traditional weaning parameters was mentioned in the study. We designed this prospective observational study to evaluate whether diaphragm movement under ultrasound serves as a predicting index of ventilator discontinuation in patients with tracheostomy. The diaphragm movement will also correlate with other parameters such as RSBI, Pi max, Pe max, Tv spont., WEANSNOW score(WS), VO2, APACHE II. Esophageal pressure is also provided as an option for our study population for more information such as pleural pressure, transdiaphragm pressure, etc. The ultrasonography measurement of diaphragm movement will be performed within 6 hours before discontinuation of ventilator. The patient remains in semi-recumbent position with the convex probe selected for its good penetration. The probe is placed at a craniocaudal axis, 90 degrees to the skin at the lower intercostal spaces to right anterior axillary line (AAL) and left posterior axillary line (PAL), which allows a perpendicular ultrasound beam direction to the diaphragm movement. Liver (border or vascular structure), splenic (border or vascular structure) will be selected as target point and the marked distance of movement during quiet respiration cycle will be measured 10 times with a largest value calculated. Other echo measurements will also be attempted. The study aims to investigate if the measurement of the diaphragm movement serves as a reliable predicting factor for weaning failure in respiratory care center patients.
Predictors of Respiratory Failure Following Extubation in the SICU
Muscle WeaknessRenal Failure1 moreRespiratory failure following extubation causes significant morbidity and increases mortality in teh surgical intensive care unit (SICU). However the causes of respiratory failure following extubation remain poorly understood. The investigators hypothesize that extubation failure can be predicted based on preoperative risk factors as well as ICU acquired morbidities including muscle weakness and renal failure.
Outcome Evaluation of Patients After Percutaneous Tracheostomy Due to Respiratory Failure in an...
Respiratory InsufficiencyTo determine the morbidity and mortality of patients who have undergone percutaneous tracheostomy due to respiratory failure in the critical care unit and after intensive care in the internal medicine department, including follow-up of quality of life of these patients.
Regional Lung Inflammation and Expansion in Mechanically Ventilated Patients - a PET/CT Study
Respiratory FailureThe goal of this study is to investigate acute respiratory distress syndrome (ARDS) and septic lung with positron emission tomography (PET) imaging and to examine the distribution of inflammation, as measured by neutrophil metabolic activity.
New Indirect Calorimetry Device for Energy Expenditure Measurement
Acute Respiratory FailureEnergy expenditure (EE) in critically ill patients is highly variable depending on the initial severity of the disease and treatments. Clinicians need to measure EE by indirect calorimetry (IC) to optimize nutritional support. IC devices available on the market have insufficient accuracy for clinical and research use. A new IC is being developed to meet these needs. Objectives: Validation of a reliable and easy-to-use IC device. Primary objective: • Accuracy of EE measurements (kcal/d measured over 30 min) of the new and the reference IC devices in intubated ICU patients on mechanical ventilation Secondary objectives: Accuracy of EE measurements in ICU patients of spontaneous breathing Accuracy of EE measurement during ~30 min. vs. the sum of 6 periods of 60 min/12 hrs Accuracy of EE measurements in ICU patients on non-invasive mechanical ventilation Design: Prospective, controlled, observational multicenter study. Subjects: 182 ICU patients.
Non-Invasive Monitoring of Respiratory Function in Spontaneously Breathing Patients With COVID-19...
Respiratory FailureVentilatory Failure4 moreThis study uses the AirGo band to monitor changes in tidal ventilation in spontaneously breathing patients with COVID-19 associated respiratory failure. It aims to recognize patterns of ventilation associated with worsening respiratory failure in this patient population. If successful, this study will lead to the development of new robust methods for real-time, continuous monitoring of respiratory function in patients with respiratory failure. In turn, such monitoring methods may enable improvements in the medical management of respiratory failure and timing of interventions.