Acute Hypoxemic Respiratory Failure Clinical Trial
Official title:
Physiological Effects of Helmet vs. Facemask Noninvasive Ventilation in Acute Hypoxemic Respiratory Failure
The optimal noninvasive management of acute hypoxemic respiratory failure is debated. Helmet noninvasive ventilation may be more effective than facemask noninvasive ventilation for these patients. Putatitve benefits of helmet use are the possibility to apply significantly higher positive end-expiratory pressure without air leaks and with good patient's comfort. In this randomized crossover study, the investigators will assess the physiological effects of helmet compared to facemask noninvasive ventilation, with the latter applied with different ventilator settings (similar to or different from helmet settings).
| Status | Recruiting |
| Enrollment | 20 |
| Est. completion date | January 15, 2025 |
| Est. primary completion date | December 31, 2024 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility | Inclusion Criteria: - Acute hypoxemic respiratory failure and PaO2/FiO2<200 mmHg - PaCO2<45 mmHg - Respiratory failure not caused by exacerbation of chronic pulmonary disease, cardiac failure or fluid overload Exclusion Criteria: - Pregnancy - Contraindication to helmet or facemask noninvasive ventilation - Contraindication to esophageal manometry - Contraindication to electrical-impedance tomography monitoring - Recent surgery involving the abdomen or the thorax - Pneumothorax or documented barotrauma |
| Country | Name | City | State |
|---|---|---|---|
| Italy | Fondazione Policlinico Universitaro A. Gemelli IRCCS | Rome |
| Lead Sponsor | Collaborator |
|---|---|
| Fondazione Policlinico Universitario Agostino Gemelli IRCCS |
Italy,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Inspiratory effort | negative deflection in esophageal pressure | 1 hour | |
| Primary | End-expiratory lung impedance | Electrical-impedance derived end-expiratory lung volume | 1 hour | |
| Secondary | Tidal volume | Electrical-impedance derived tidal volume size | 1 hour | |
| Secondary | Work of breathing | Esophageal pressure simplified pressure-time product | 1 hour | |
| Secondary | Respiratory rate | Respiratory rate per minute | 1 hour | |
| Secondary | Dynamic transpulmonary driving pressure | Tidal change in transpulmonary pressure | 1 hour | |
| Secondary | Compliance | Ratio of tidal volume to transpulmonary driving pressure | 1 hour | |
| Secondary | Dyspnea | Dyspnea rated through a visual analog scale (ranging from 0 to 10, with representing most severe dyspnea) adapted for critically ill patients | 1 hour | |
| Secondary | Discomfort | Device-related discomfort (ranging from 0 to 10, with representing most severe dyspnea) rated through a visual analog scale adapted for critically ill patients | 1 hour | |
| Secondary | Oxygenation | PaO2/FiO2 ratio | 1 hour | |
| Secondary | Pendelluft extent | Pendelluft extent, expressed in % of the total tidal volume | 1 hour | |
| Secondary | Corrected minute ventilation | The product of tidal volume and respiratory rate, normalized to PaCO2. This value is expressed in Arbitrary units per minute divided by mmHg and is a proxy of dead space | 1 hour | |
| Secondary | Arteria Carbon dioxide tension | PaCO2 | 1 hour | |
| Secondary | Tidal volume distribution | Tidal volume distribution, assessed with electrical impedance tomography in 4 regions of interest (ventral, mid-ventral, mid-dorsal, dorsal) | 1 hour |
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