Individualized Positive End-expiratory Pressure Guided by End-expiratory Lung Volume in the Acute...
Respiratory Distress SyndromeAdultDuring the acute respiratory distress syndrome (ARDS), patients' response to positive end-expiratory pressure (PEEP) is variable according to different degrees of lung recruitability. The search for a tool to individualize PEEP on the basis of patients' individual response is warranted. Measurement of end-expiratory lung volume (EELV) by the nitrogen washin-washout technique, bedside available from recent ICU ventilators, has been shown to reliably estimate PEEP-induced alveolar recruitment and may therefore help titrate PEEP on patient's individual requirements. The authors designed an open-label, multicenter, randomized trial to test whether an individualized PEEP setting protocol driven by EELV may improve a composite clinical outcome in patients with moderate-to-severe ARDS.
Use of Extracorporeal CO2 Removal in Case of Moderate to Severe ARDS to Apply an Ultraprotective...
Acue Respiratory Distress SyndromeThe extracorporeal CO2 removal (ECCO2R) has been recently proposed in case of Acute Respiratory Distress Syndrome (ARDS) in order to reduce pulmonary injuries induced by the mechanical ventilation. A reducing of tidal volume and/or respiratory rate is thus expected using this extracorporeal respiratory support. However, most of existing devices of ECCO2R can apply only a limited extracorporeal flow, often less than 1L/min, which limits the CO2 exchanges and does not allow to reach an ultraprotective ventilation. An extracorporeal flow higher should logically maximalize CO2 removal and allow reducing intensity of mechanical ventilation. Works focused on high-flow ECCO2R (2-3 L/min) in setting of ARDS are therefore mandatory to better understand apprehend the phenomena of gazes changes with this device and confirm the added-value in management of these specific patients.
Optimal Dose of Surfactant for Preterm Infants With Respiratory Distress Syndrome
Respiratory Distress SyndromeNewborn3 moreIn preterm infants with neonatal respiratory distress syndrome (RDS), exogenous pulmonary surfactant(PS) replacement therapy is one of the most important therapeutic breakthrough to reduce neonatal incidences of bronchopulmonary dysplasia(BPD) and/or death. But not all preterm infants with RDS can be beneficial. Otherwise, the international neonatal acute RDS (NARDS) collaborative group provides the first consensus definition for NARDS in 2017. And whether or not PS being beneficial in preterm infants with NARDS remains unknown.
VICOR Study-High Frequency Chest Wall Oscillations (HFCWO) in Patients With Acute Respiratory Failure...
Acute Respiratory FailureAcute-on-chronic Respiratory Failure1 moreThe study aims to evaluates if the treatment with HFCWO Via The Vest® Airway Clearance System, in addition to standard care in critically ill patients admitted in the Respiratory Intensive Care Unit for acute respiratory failure or acute on chronic respiratory failure and unable to manage secretions, could primarily prevent the need for bronchoscopy, and secondarily shorten duration of non invasive respiratory therapy, shorten length of stay and reduce mortality.
Continuous Infusion Versus Intermittent Boluses of Cisatracurium in the Early Management of Pediatric...
Respiratory Distress SyndromePediatric1 moreThe aim of this work is to compare continuous infusion vs on need intermittent boluses of Cisatracurium in the early management of pediatric acute respiratory distress syndrome
Efficacy and Safety of Anakinra in Acute Respiratory Distress Syndrome
Acute Respiratory Distress SyndromeAcute Respiratory Distress Syndrome (ARDS) is a life-threatening condition characterized by acute respiratory failure with hypoxemia, noncardiogenic or non-fluid overload pulmonary edema, bilateral diffuse opacities on chest radiograph in the presence of a predisposing factor. In ARDS there is activation of the inflammatory cascade which is very intense and persistent in the severe types. It was highlighted that the inflammatory cytokines in patients with ARDS or sepsis is similar to that observed in COVID-19 positive patients. Emerging therapies include immunomodulation and the administration of mesenchymal stem cells for the modulation of lung repair through the release of cytokines and growth factors that modulate the local inflammatory response. Regardless of the cause of ARDS, the severity of the inflammatory state and fibroproliferative evolution have been shown to be independent predictors of survival and ventilator dependence. Patients suffering from severe forms of ARDS in fact require prolonged mechanical ventilation, which exposes them to ventilator-associated pneumonia (VAP) and the onset of multiorgan insufficiency. The hyperinflammatory state underlying ARDS predisposes to pulmonary fibroproliferation, which in turn increases susceptibility to ventilator dependence and increases the risk of MOF and death. For this reason, the rationale in the use of anakinra is to limit the inflammatory process of ARDS as early as possible, avoiding the progression of lung damage.
Early PP Monitored by EIT in Patients With ARDS
Acute Respiratory Distress SyndromeAcute Respiratory Distress Syndrome (ARDS) is a syndrome characterized by respiratory distress and refractory hypoxemia caused by pulmonary and extra-pulmonary factors. Despite improvements in diagnosis and treatment in recent years, the mortality rate of severe ARDS is still around 40%. The distribution of lung lesions in ARDS patients is significantly gravity-dependent. Even with lung-protective ventilation strategies, tidal volume is concentrated in the ventral lung region, leading to ventilator-associated lung injury. Prone position ventilation can increase ventilation to the dorsal lung tissue and improve the ventilation-perfusion ratio, thus improving oxygenation. During prone position ventilation in ARDS patients, lung-protective ventilation strategies should be maintained, but with different respiratory mechanics from the supine position, requiring adjustment of ventilator parameters. Electrical Impedance Tomography (EIT) technology can be used for bedside monitoring of mechanically ventilated patients, providing real-time feedback on the patient's ventilation status and having great potential for clinical applications. Investigators believes that EIT monitoring during prone position ventilation in ARDS patients can individualize lung-protective ventilation strategies, minimize alveolar overdistension and collapse, improve the weaning success rate of invasive ventilation, and ultimately improve patient prognosis.
Lung UltrasouNd Guided Surfactant Therapy in Preterm Infants (LUNG Study)
Respiratory Distress SyndromeNewbornThe investigators hypothesized that the use of lung ultrasound (LU) for measuring RDS severity and deciding surfactant treatment thresholds might decrease the incidence of early and late sequelae in the study group. Thus, a timely surfactant therapy would eventually improve short (e.g. Need of mechanical ventilation in the first 3 days) and more long-term outcomes, such as BPD or death. To confirm this hypothesis, the investigators planned an international multicenter randomized controlled study in which preterm infants will be randomized into two groups: one will be managed deciding surfactant treatment of preterm infants with RDS on the basis of a cut-off value of FiO2 as for European guidelines, and one will be managed deciding surfactant treatment using a LU score cut-off and/or FiO2. Primary endpoint will be the reduction in proportion of infants with BPD or death in the group managed with LU compared to the control group
Fenofibrate for Patients With COVID-19 Requiring Hospitalization
Corona Virus Disease (COVID-19)Respiratory Distress Syndrome1 moreThis is an open-label run-in followed by a randomized, double-blind drug treatment study of COVID-19 infected patients requiring inpatient hospital admission.
Extending CPAP Therapy in Stable Preterm Infants to Increase Lung Growth and Function
NeonatalPremature Birth1 moreThis is a study to see if an extra 2 weeks of continuous positive airway pressure (CPAP) in stable preterm infants in the neonatal intensive care unit (NICU) can cause increased lung growth and lung function in the infants as measured at 6 months of age by pulmonary function testing.