Background: Airway management in children with Pierre Robin sequence in the infantile period can be challenging and frequently requires specialized approaches.
Aims: The aim of this study was to review our experience with a multistage approach to oral and nasal intubation in young infants with Pierre Robin sequence.
Methods: After IRB approval, we reviewed 13 infants with Pierre Robin sequence who underwent a multistage approach to intubation in the operating room for mandibular distractor or gastrostomy tube placement. All patients underwent awake placement of either an LMA-Classic™ #1 or ProSeal™ laryngeal mask airway size #1. General anesthesia was induced with sevoflurane, and patients were relaxed with rocuronium. The laryngeal mask airway was replaced with an air-Q® 1.0. Children were then intubated through the air-Q® 1.0 using a flexible fiberoptic bronchoscope. In cases that required a nasotracheal tube, the oral tube was left in place while a flexible fiberoptic bronchoscope loaded with a similar internal diameter nasal Ring-Adair-Elwyn (RAE) tube was introduced into the nares. Once the scope was in proximity to the glottis, the oral tube was removed and the patient was intubated with the nasal RAE over the fiberscope.
Results: All 13 patients with Pierre Robin sequence were successfully intubated. We observed no periods of desaturation during placement and induction with the LMA-Classic™ or ProSeal™ laryngeal mask airway except in one patient who was in extremis in the neonatal intensive care unit and required emergent transport to the operating room with the laryngeal mask airway in place. We observed several brief periods of desaturation during the apneas associated with fiberoptic intubation.
Conclusion: In conclusion, we were able to use a ventilation-driven, multistaged approach using the unique properties of different supraglottic airways to facilitate oral and nasal intubation in 13 infants with Pierre Robin sequence.
Keywords: Pierre Robin syndrome; airway management; general anesthesia; intubation; laryngeal masks; pulmonary ventilation.
© 2018 John Wiley & Sons Ltd.