Evaluation of a New Laser-Resistant Fabric and Copper Foil-Wrapped Endotracheal Tube

The risk of an endotracheal tube's combustion during laser airway surgery necessitates the use of special anesthetic techniques and equipment to prevent this complication. This study was designed to evaluate the Laser‐Trach™, a new laser‐resistant rubber endotracheal tube for use during laser airway surgery. The Laser‐Trach endotracheal tubes that were evaluated were size 6.0 mm internal diameter (ID) red rubber endotracheal tubes which had been commercially wrapped by Kendall‐Sheridan (Mansfield, Mass.) with copper foil tape and overwrapped with fabric. The fabric layer was saturated with water prior to our tests, as recommended by the manufacturer. The Laser‐Trach endotracheal tubes were compared with plain (bare) size 6.0 mm ID Rusch red rubber endotracheal tubes. The tubes under study were positioned horizontally on wet towels in air and had 5 L•min−1 of oxygen flowing through them. They were subjected to continuous laser radiation at 40 W from either a CO2 or an Nd‐YAG laser. The Nd‐YAG laser was propagated via a 600‐μm fiber bundle. Each laser was directed perpendicularly at the shaft of the endotracheal tube being studied, and its output was continued until a blowtorch fire occurred or 60 seconds had elapsed. Sixty seconds of CO2 laser fire did not ignite any of the eight Laser‐Trach endotracheal tubes tested. However, blowtorch ignition of all eight bare rubber tubes tested occurred after 0.87 ± 0.21 (mean ±SD) seconds of CO2 laser fire. Nd‐YAG laser contact with the Laser‐Trach endotracheal tubes caused the perforation and blowtorch ignition of all eight tubes tested after 18.79 ± 7.83 seconds. This was a significantly (P