Prospective Study on Swallowing/Breathing Interactions in Severe Guillain Barre Syndrome.
TetraplegiaRespiratory FailureTo estimate, in a longitudinal and not invasive way, in patients with SGB at respiratory risk, the function of respiratory muscles and that of the upper airways muscles by investigating the force of the tongue, the gulp, and the breath during the sleep to be able to detect bulbar impairment and establish correlations enter the various parameters to estimate better the interactions between the dysfunction of the respiratory muscles and that upper airways muscles and so determine the risk acute respiratory failure.
Epidemiology of Respiratory Insufficiency in Critical Care
Acute Respiratory FailureAcute respiratory failure is a common entity in intensive care units nowadays and is associated with significant morbidity and mortality, thus representing a major health problem. Most of the published epidemiological studies on this condition were performed when modern ventilatory strategies and non-invasive ventilation were not available. Therefore, an actual evaluation on the incidence and outcomes of this syndrome is mandatory. We will perform an observational prospective study of patients admitted with acute respiratory insufficiency in several ICUs in Brazil.
Prognosis in Patients With Chronic Respiratory Failure Receiving Domiciliary Noninvasive Positive...
Chronic Respiratory FailureThe purposes of the present study are (1) to analyze baseline patient characteristics cross-sectionally, (2) to analyze the prognosis and its predictive factors, and (3) to examine longitudinal clinical course in patients with chronic respiratory failure receiving domiciliary NPPV.
Non-invasive Measurements of Elastance and Resistance
Respiratory InsufficiencyThe study aims to assess the agreement between respiratory mechanics parameters measured noninvasively by means of brief airways occlusions at the beginning of inspiration and the reference parameters obtained with standard techniques of esophageal and gastric pressure under static and dynamic conditions in a mixed population of ICU patients mechanically ventilated in pressure support ventilation mode.
Evaluation of Different Interfaces for Noninvasive Positive Pressure Ventilation (NPPV)
Respiratory FailureHealthyIn this study the investigators aimed to study the ventilatory performance of different interfaces during NPPV delivering.
Clinical Evaluation of FreeO2 (Version 4) in All Patients Receiving Oxygen
Respiratory DiseaseRespiratory Failure3 moreEvaluation of automatic titration of oxygen with a new version of FreeO2 (V4)
Fourth International Study of Mechanical Ventilation From VENTILA GROUP
Acute Respiratory FailureMechanical Ventilation2 moreA prospective, international and multicenter, non interventional single-cohort study, which will enroll consecutive adult patients who have received mechanical ventilation (invasive and noninvasive ventilation) for at least 12 hours during a 1-month period, and will follow each patient for the duration of mechanical ventilation, up to 28 days. The main objectives will be to analyze the mortality and clinical outcomes in ventilated patients and secondly, to evaluate the practices of liberation from mechanical ventilation, the failure of non invasive ventilation in the ICU, and to analyze the clinical outcomes in specific populations of critically ill patients with the need of mechanical ventilation.
Prediction of Outcome of Weaning From Mechanical Ventilation Using the Electrical Activity of the...
Respiratory InsufficiencySeveral types of spontaneous breathing trials (SBTs) have been proposed to evaluate when a patient is ready to be weaned from the ventilator based on breathing pattern measurements. The T-piece technique allows clinicians to calculate breathing patterns accurately but many prefer to use minimal levels of assistance, which unfortunately modifies breathing pattern. The interest of Neurally Adjusted Ventilatory Assist (NAVA) is that tidal volume (Vt) supposedly represents what the patient really wants: without disconnecting the patient from the ventilator, it may be possible to determine what is the real need and whether the patient is able to maintain Vt without support. The aims of the study are as follows: to test whether the changes in Vt after the removal of a standardized level of NAVA assistance (ΔVt) can predict weaning outcome; to compare the proposed titration of effort in NAVA (occlusion) with Patient-Ventilator Breath Contribution (PVBC) and titration using the Pmusc/Eadi index (PEI) relating the pressure generated by the respiratory muscles (muscular pressure; Pmusc) to the electrical activity of the diaphragm (EAdi); to assess the effect of PEEP on the change in Vt; and to evaluate EAdi after extubation. Patients ventilated for at least 24 hours who are ready to undergo an SBT will be included. Patients younger than 18 years of age and/or who have a contraindication to NAVA catheter insertion and/or surgical patients expected to be extubated within 12 hours will be excluded. After a baseline inclusion period with the pre-enrollment mode of ventilation, the standardized NAVA level will be applied for 20 minutes, during which both Patient-Ventilator Breath Contribution (PVBC) and PEI will be calculated. After the NAVA trial, a period of Continuous Positive Airway Pressure (CPAP) 5 (2-3 minutes) followed by a period of CPAP 0 (2-3 minutes) (both with NAVA gain 0) will be performed in order to record the difference with Vt during standardized NAVA (ΔVt). At the end of this period, the patient will be switched back to the baseline settings for 30 minutes-3 hours. After this period, the patient will perform an SBT with CPAP 0 or CPAP 5 for 1 hour. At the end of the SBT, the attending physician will decide whether or not to extubate the patient according to standard criteria and blinded to the ΔVt results. Ultimately, patients will be classified as "success" or "failure" and the ΔVt will be compared between these two groups.
Intra-operative Inspiratory Oxygen Fraction and Postoperative Respiratory Complications
Respiratory FailureAcute Respiratory Failure Requiring Intubation4 moreRespiratory complications represent the second most frequent type of postoperative complications with an incidence estimated to range from 2.0% to 7.9% It has been shown that intra-operative protective ventilation is associated with a reduced risk of respiratory complications. The effects of intra-operative inspiratory oxygen fraction (FiO2) remain to be investigated. In this study, the investigators aim to investigate the association between intra-operative FiO2 and respiratory complication as well as surgical site infection and ICU admission in patients undergoing non-cardiothoracic surgery. The investigators primary hypothesis is that high intra-operative FiO2 increases the risk of postoperative respiratory complications independent of predefined risk factors.
Noninvasive NAVA Versus Flow-triggered Noninvasive Pressure Support in Pediatric Respiratory Failure...
Acute Respiratory FailureAcute Hypoxemic Respiratory Failure (AHRF) is a leading cause of admission in Pediatric Intensive Care Unit (PICU). Traditional treatment includes endotracheal intubation and mechanical ventilation, that are invasive and not free from risks. Recent experiences from pediatric studies showed that Non-Invasive Pressure Support Ventilation (NIV-PS) has been associated with lower intubation rate, adverse events and mortality compared to mechanical ventilation delivered by an endotracheal tube. Nonetheless, in pediatric ARF, the application of a well-synchronized NIV-PS is technically challenging due to the presence of leaks and the age-specific characteristics of pediatric respiratory pattern (high respiratory rate, short inspiratory/expiratory time and weak inspiratory effort). Consequently, NIV-PS often results in difficult patient-ventilator interaction, with a failure rate up to 43% . Neurally Adjusted Ventilatory Assist (NAVA) is a new form of ventilatory assistance wherein the ventilator applies positive pressure throughout inspiration synchronously and proportionally to the Electrical Diaphragm activity (Edi). Thus, NAVA is not influenced by large leaks around uncuffed endotracheal tubes or noninvasive interfaces. Studies in intubated children found that NAVA improved interaction by reducing asynchronies and optimizing ventilator cycling.Two recent studies showed that the application of Non-Invasive NAVA (NIV-NAVA) in children with ARF is feasible and may reduce asynchronies as compared to NIV-PS. More recently, in a recent RCT of our group, we demonstrated that NIV NAVA in children was associated with lower asynchronies, longer synchronization time between patient and ventilator at lower peak and mean airway pressure. However no data are published to address the question if the better synchronization between patients and ventilator obtained with NIV NAVA could lead to a reduction in intubation rate and PICU outcomes. To address this question, we designed an observational retrospective study aiming to define if early delivered NIV NAVA could reduce intubation rate if compared with traditionally flow-cycled NIV PS in hypoxemic children admitted to PICU.