Thermal ablation (use of treatment modalities that generate heat) has become a widely used tool for treatment of central airway obstruction (e.g. laser, electrocautery, radiofrequency, and argon plasma coagulation). However, this method carries with it an increased risk for airway fire - a surgical fire that occurs in a patient's airway and could also include a fire in the attached breathing circuit. To decrease the risk of airway fire during mechanical ventilation with an endotracheal tube, the concentration of inspired oxygen (FiO2) is set below 40% while waiting for end tidal oxygen concentration (EtO2) to fall below 40% prior to starting thermal ablation. There is no published literature describing O2 concentration within the airways (AiO2) during jet ventilation with rigid bronchoscopy. The co-investigators of this study have recently collected data on AiO2 during rigid bronchoscopy using manual low frequency jet ventilation/high frequency jet ventilation with a period of apnea. The intent of this study is to measure the time taken for the central airway oxygen concentration to drop from 90 to 40% when the "laser mode" is activated on the Monsoon jet ventilator. Ventilation is continued during "laser mode."
Study Type
OBSERVATIONAL
Enrollment
50
This is an observational study
University of Minnesota
Minneapolis, Minnesota, United States
RECRUITINGTime in seconds to AiO2 from 90 to 40%
Time in seconds to AiO2 from 90 to 40% after activating laser mode on the monsoon jet ventilator.
Time frame: baseline
Differences in time to laser mode AiO2
Differences in time to laser mode AiO2 between trachea and left and right mainstem bronchi.
Time frame: baseline
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