In emergency and critical care medicine, one of the most common incidences of severe hypoxemia occurs during the process of endotracheal intubations. Endotracheal intubations, also known as insertion of a breathing tube, is a life saving technique used in medicine to help maintain oxygen delivery, to protect lungs from injury, for patients to safely undergo anesthesia for surgeries, as well as to help rest critically ill patients to allow their bodies time to recover. Despite advances in the field of medicine, the process of placing a breathing tube in emergency situations is still associated with an increase risk of hypoxemia up to 26.7%. This places patients at significant risk for cardiac dysrhythmia, brain damage and hemodynamic decompensation which may ultimately result in death. A UK national review of emergency intubations identified hypoxemia as a cause of death in 50% of intensive care intubations and 27% of Emergency Department intubations. Therefore, it is imperative to improve and develop methods to minimize hypoxemia during airway management.
A vital component used to minimize the risk of hypoxemia during endotracheal intubations is preoxygenation. Preoxygenation is a method to to prolong the time to oxygen desaturation by replacing the lung volume with 100% oxygen compared to 21% oxygen (room air) through the administration of supplemental oxygen. This increases the reservoir of oxygen in the lungs that the body can use to prolong their time to desaturation. Studies have shown a good preoxygenation technique can increase the time to oxygen desaturation from 0.6 min to 8 min in a non obese patient. This remarkable impact at preventing hypoxemia has made preoxygenation the gold standard to minimize hypoxemia during airway management.
Historically preoxygenation with bag-valve-mask ventilation (BVM) and an oxygen non-rebreather mask has been the standard for preoxygenation. Recently, the use of high flow nasal cannulaes have been used for preoxygenation however it is unclear in the literature if one provides a superior preoxygenation compared to another. In an effort to determine the best preoxygenation modality for airway management, the investigators will conduct a 3 arm interventional crossover designed study to compare preoxygenation using a non-rebreather mask, BVM and HFNC in 150 patients. To determine which modality provides the best preoxygenation, arterial blood gases will be taken after each intervention and compared against each other.
Given the high propensity for hypoxemia during airway management in the obese and disease lung population, this protocol will have specific groups based on their BMI (\<30, 30-35 and \>35) as well as the presence of lung disease based upon their PaO2/FiO2 ratio (\< 300 lung disease or \>300 no lung disease).
However, due to the pandemic, we had to pause recruitment, a decision was made to do an power analysis with the number of patients we had recruited and a decision was made to collapse the study and report or findings.
