A novel airway management technique for nasal surgery following transoral robotic surgery for patients with obstructive sleep apnea.

Abstract

To the Editor, Multilevel surgical intervention to treat obstructive sleep apnea (OSA) has been shown to result in a significant improvement in OSA symptoms. This approach involves resection of pertinent anatomical obstructions to airflow, such as the hypopharynx, base of the tongue, or the epiglottis, with or without uvulopalatopharyngoplasty. In addition, correction of nasal obstruction in OSA patients has been recommended independent of OSA severity as it has been found to improve subjective snoring and daytime fatigue. In our institution, drug-induced sleep endoscopy is performed before commencing surgery to confirm the pattern of airway obstruction. Subsequently, anesthesia is induced and nasal intubation is performed for transoral robotic surgery (TORS) with a plan for oral reintubation in case nasal surgery is required. Patients with OSA are more likely to have a difficult airway. The requirement to reintubate these patients for the second-stage nasal procedure is made further difficult (or potentially impossible) by airway edema and bleeding following TORS. It can also make bag and mask ventilation difficult. Furthermore, reintubation attempts can cause trauma to the nasal or oropharyngeal structures as well as increase the risk of aspiration of blood and debris. More invasive alternatives, such as tracheostomy or submental intubation, can be considered in extreme cases, but these options are undesirable in the elective setting. To overcome these problems, we have devised an alternative approach aimed at avoiding extubation. In our institution, we use the Ivory PVC, North Facing, Nasal, Profile Soft Seal Cuff, Polar Preformed Endotracheal Tube (Smiths Medical International Ltd; http://www.smithsmedical.com) for nasal intubation. Upon completion of TORS, we suction the oral cavity and check the cuff pressure of the endotracheal tube (ETT) to ensure no leakage in the ventilation system. We next tie a knot in the pilot balloon tube close to the ETT, cut off the pilot balloon, disconnect the Ivory tube from the circuit, and remove its 15-mm connector. With an assistant’s help, we cut off and lubricate the proximal 5-8 cm of the ETT, and then push the ETT into the patient’s nasal cavity. To facilitate pushing the proximal end of the Ivory tube into the nasal cavity, a second tube of the same size can be used to apply a steady downward pressure while under direct laryngoscopy. The Ivory tube can be simultaneously ‘‘fished’’ out from the oral cavity with Magill forceps and then re-connected to the ventilator. An alternate method to minimize inadvertent extubation is to use the laryngoscope blade to compress the distal portion of the ETT against the posterior pharynx as the proximal portion is ‘‘fished’’ out. Its position should be confirmed with capnography and checked clinically for bilaterally equal air entry before securing the ETT in its new position. Subsequently, the nasal surgery can proceed. At the end of the nasal procedure, we cut off the pilot tube knot to allow egress of air from the ETT cuff before extubation (Figure). It is important to oxygenate the patient’s lungs adequately and to have measures in place for reintubation in case of accidental extubation while withdrawing the proximal end of the ETT from the oral cavity. A mouth pack can be inserted if there is significant cuff leakage after ETT adjustment. Importantly, at the time of subsequent J. Tan, MBBS (&) P. Phoon, MBBS T. Wong, MD R. Poopalalingam, MBBS Department of Anesthesiology, Singapore General Hospital, Singapore, Singapore e-mail: jerry.tan@mohh.com.sg