Author: Maha Salama, PGY-3
Article Reviewed:
Preoxygenation and Prevention of Desaturation During Emergency Airway Management
Weingart SD, Levitan RM. Annals of Emergency Medicine. 2012;59:165-175
Preoxygenation allows a safety buffer during periods of hypoventilation and apnea
- In a patient breathing room air before RSI (PaO2 ~90-100 mmHg), desaturation will
occur in the 45-60 sec after sedative/paralytic administration - Preoxygenation extends duration of safe apnea (time until a patient reaches a saturation level of 88% to 90%)
- In the short term, shunt physiology (perfusing but not ventilated) can be partially
overcome by augmenting the mean airway pressure - 3 goals of preoxygenation in the ED:
- Bring saturation as close to 100% as possible
- Denitrogenate residual capacity of the lungs
- Leads to maximal oxygen storage in the lungs
- Denitrogenate and maximally oxygenate the bloodstream
- Bloodstream is a comparatively small oxygen reservoir compared to lungs (5% vs 95%)
- Patients with adequate respiratory drive should receive preoxygenation for 3 minutes or take 8 breaths with maximal inhalation and exhalation
- Should receive preoxygenation in a head elevated position whenever possible
- If immobilized for possible spinal injury, reverse Trendelenburg position
- When a patient is breathing room air, 450 cc of oxygen is present in the lungs;
- Increases to 3000cc when a patient breathes 100% oxygen for a sufficient time to replace the alveolar nitrogen
Oxygen consumption during apnea is approximately 250cc/min (3cc/kg/min)
- Healthy patients- safe apnea time on RA is 1 min compared to 8 min when breathing at high FiO2
- A nasal cannula set at 15 L/min is the most readily available and effective means of providing adequate apneic oxygenation during ED tracheal intubations
- In hypoxemic patients, low pressure/low volume/low rate bag mask ventilation will be required during the onset phase of muscle relaxants
- Alveoli will continue using oxygen even without diaphragmatic excursion or lung expansion
- 8-20 cc/min of CO2 moves into alveoli during apnea with the remainder being
buffered in the bloodstream - On average, PaCO2 increases 8-16 mmHg in the first minute of apnea and then
approximately 3 mmHg/min subsequently
- 8-20 cc/min of CO2 moves into alveoli during apnea with the remainder being
Imho, these articles / posts should be marked by a big asterisk. The article was not a clinical study. It is theory that has not been proven to show benefit to patients.