TY - JOUR T1 - Oxygen Supplementation in a Model of a Ventilator-Dependent Tracheostomized Child JF - Respiratory Care VL - 65 IS - Suppl 10 SP - 3441779 AU - Cameron Alarcon AU - Denise Willis AU - Ariel Berlinski Y1 - 2020/10/01 UR - http://rc.rcjournal.com/content/65/Suppl_10/3441779.abstract N2 - Background: Pediatric patients receiving chronic mechanical ventilation via tracheostomy have variable needs for oxygenation. Supplemental oxygen can be supplied either through the ventilator or at the tracheostomy site. In this study we compared tracheal FIO2 achieved through 2 different methods in a model of pediatric mechanical ventilation via tracheostomy. We hypothesize that administering oxygen through the tracheostomy would provide a higher FIO2. Methods: An in-vitro model of pediatric ventilation via tracheostomy was utilized with a home ventilator (Breas Vivo 65) which was connected in series to a single-limb heated wire passive ventilator circuit (Fisher & Paykel RT219, internal diameter 30 mm), a tracheostomy ring (t-ring) adapter, 4.0 pediatric tracheostomy tube with cuff inflated (Bivona TTS), t-piece with oxygen analyzer (trachea), filter, and an infant test lung (20% leak, resistance Rp50 and compliance 2 mL/mbar). Ventilator settings were PC-SIMV, RR 30, PC 30, I-time 0.6, PEEP 5 and PS 15. Oxygen was administered through the ventilator’s designated oxygen inlet and through the t-ring at different flows and the resultant FIO2 was measured at the tracheal level. Measurements were done in quadruplicate after 5 minutes of continuous operation. A T-test was used to compared tracheal FIO2 obtained with different connections. Results: See Table. Conclusions: In an in-vitro model of pediatric ventilation via tracheostomy, delivering supplemental oxygen through the t-ring provided a higher FIO2 than using the ventilator port when oxygen flows were ≥ 3 L/min. However, the use of a t-ring could potentially affect the monitored tidal volume. View this table:FIO2 X ± SD ER -