Respiratory failure is characterized by low levels of oxygen and high levels of carbon dioxide in the blood which causes difficulty breathing. The management of patients with respiratory failure aims at improving oxygenation and changing the effort required to breathe. Mechanical ventilation is a life-saving treatment but may be associated with a high mortality rate, prolonged stay in the intensive care unit (ICU), and infection. Oxygenation techniques to avoid mechanical ventilation include standard oxygen therapy, continuous positive pressure (CPAP), and high-flow nasal cannula oxygen therapy (HFNC). CPAP consists of delivering oxygen through a mask. As compared to standard oxygen therapy, CPAP can promote lung recruitment leading to improved oxygenation and the effect in work of breathing in patients with respiratory failure. Conversely, high-flow nasal cannula oxygen therapy (HFNC) delivers oxygen through nasal prongs. Oxygen is heated and humidified and can be delivered at different flows (from 10 - 60 L/min). As compared to standard oxygen therapy, HFNC can promote some lung recruitment leading to mofiy oxygenation and work of breathing. Therefore, the present study will have 2 phases: Phase 1:Comparison of the physiological effects of different flows of HFNC to CPAP in healthy volunteers. The investigators hypothesized that the physiological effects of HFNC in the nasopharynx are comparable to that of CPAP at 4 cm H2O. Phase 2: Comparison of the physiological effects of different nasal interfaces of HFNC (Standard cannula vs. Asymmetrical cannula vs. Single-nostril adapted cannula) in healthy volunteers. The investigators hypothesized that the physiological effects of HFNC in the nasopharynx are comparable to that of CPAP at 4 cm H2O. It was hypothesized that asymmetrical which is the cannula that has a higher cross-sectional area generates higher nasal pharyngeal pressure.
Study Type
OBSERVATIONAL
Enrollment
10
St. Michael's Hospital
Toronto, Ontario, Canada
RECRUITINGEnd expiratory nasopharyngeal pressure (NP)
The primary endpoint is to compare the end expiratory nasopharyngeal pressure (NP) under 60 L/min of high flow nasal cannula (HFNC) to continuous positive airway pressure (CPAP 4 cmH2O).This will be assessed using a nasopharyngeal catheter.
Time frame: 5 minutes
End expiratory nasopharyngeal pressure (NP)
The primary endpoint is to compare the end expiratory nasopharyngeal pressure (NP) of high flow nasal cannula (HFNC) among the 3 different nasal cannulas (Symmetrical, Asymmetrical, Single-nostril adapted).
Time frame: 5min
Change in physiologic variables of airway pressure at different flows of HFNC (20, 40, and 60 L/min) and CPAP (4 cmH20). In the phase#2; HFNC 2, and 50 L/min.
One of the secondary endpoints is to compare variables of airway pressure at different flows of HFNC to CPAP. The investigators will measure the end expiratory NP, mean NP, mean peak inspiratory pressure, mean peak expiratory pressure, delta inspiratory pressure and delta expiratory pressure. Each of these variables will be measured for 1 minute using a nasopharyngeal catheter. Furthermore, at each flow of HFNC, the investigators will ask the patient to breathe with their mouth open and mouth closed.
Time frame: 5 minutes
Change in end-expiratory lung impedance
The other secondary endpoint is to compare the change in ventilation distribution and end-expiratory lung impedance at different flows of HFNC and CPAP (Different nasal cannulas in the 2nd phase). These variables will be measured using electrical impedance tomography (EIT) by placing a band around the chest of each participant.
Time frame: 5 minnutes
Dead-space washout in the upper airways
Assess whether the transcutaneous CO2 is modified by HFNC, while comparing 3 different nasal cannulas (Symmetrical, Asymmetrical, Single-nostril adapted).
Time frame: 5 minutes
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