Litcius/Paper detail

Microlaryngeal Laser Surgery Using High‐flow Nasal Ventilation at Two Oxygen Concentration Deliveries

Daniel Novakovic, Meet Sheth, Avital Fellner, Alexander Zoszak, Stefan Liew, Duy Duong Nguyên

2022The Laryngoscope16 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: Ventilation using 100% oxygenation creates a risk of fire during laser microlaryngeal surgery (MLS). The purpose of this study is to describe the technique of transnasal high-flow ventilation using laser safe (30%) oxygen conditions, measure the intraoperative real-time laryngeal oxygen concentration, and examine patient saturation status using this technique. METHODS: Prospective IRB approved study of patients undergoing tubeless laser MLS using high-flow nasal oxygenation. Delivered oxygen concentration was reduced from 100% to 30% before lasering using an oxygen-air blender then increased to 100% post-laser procedure. Outcome measures included time for laryngeal oxygen concentration to equalize to laser safe levels; time to, methods of and duration of rescue ventilation; and desaturation rates and apnoeic times at both 100% and 30% oxygen deliveries. RESULTS: Fifty patients were recruited (mean age = 47.4 years). Mean laryngeal oxygen concentration (%) at 100% and 30% deliveries was 98.46 and 31.45, respectively. Mean (SD) of laryngeal oxygen concentration equalization time to 30% (seconds) was 9.4 (3.69). At 30% oxygen delivery desaturation rate was faster and apneic time shorter compared with 100%. Eighteen patients required rescue (jet) ventilation and they had a faster apneic desaturation rate (%/minute) than patients not requiring rescue. Mean (SD) apneic time (minutes) at 30% delivery was 4.56 (2.25) and 4.41 (2.18) in rescue versus non-rescue groups respectively. BMI was the only significant predictor of desaturation rate at 30% oxygen delivery. CONCLUSION: It is possible to achieve a safe time window for use of laser during MLS using transnasal humidified high-flow ventilation by delivering 30% oxygen concentration. LEVEL OF EVIDENCE: 4 Laryngoscope, 133:634-639, 2023.

Topics & Concepts

MedicineOxygenationAnesthesiaOxygen saturationVentilation (architecture)OxygenJet ventilationLaser surgeryOxygen deliverySurgeryAirwayLaserChemistryPhysicsOpticsOrganic chemistryMechanical engineeringEngineeringAirway Management and Intubation TechniquesTracheal and airway disordersNasal Surgery and Airway Studies