Construction of virtual airway model to assist surgical correction of velopharyngeal insufficiency with posterior pharyngeal flap

Abstract

ObjectivePosterior pharyngeal flap (PPF) is one of the most common surgical technique to correct velopharyngeal insufficiency(VPI), during which controlling the sizes of the lateral pharyngeal ports(LPP) is the key to outcomes. One innovative procedure was developed to well control the size of LPP. Materials and methods40 patients with repaired cleft palate were collected from June 2022 to August 2023. All patients were diagnosed with VPI, and treated with modified PPF surgery. For each patient, upper airway model was reconstructed, and the virtual airway model of PPF was designed. The nasal valve area was measured as it was considered to be the narrowest part of the upper airway. The upper airway resistances under different sizes of LPP was predicted through computational fluid dynamics analysis. The minimum size of each lateral pharyngeal port without obviously increase of upper airway resistance was calculated through effect of lateral pharyngeal ports’ size on upper airway resistance. Postoperative follow-up was 6-18 months, including speech outcome and respiration outcome. Resting soft palate length (RVL), effective working length of soft palate (EWL) and angle of soft palate elevation (AVL) were measured and compared according to the lateral cephalometric radiograph. ResultsThere was a linear relationship between the threshold value and nasal valve (R=0.62). Among the forty patients, the average size of nasal valve was 47.81mm2, the average size of the threshold value of LPP was 31.63mm2. The rate of velopharyngeal closure competence after surgery was 95%. Compared with the preoperative measurements, there were significantly increase of RVL, EWL and AVL (P<0.05). There were significantly difference in the nasal obstruction symptom evaluation score in long-term follow-up compared to short-term follow-up (P<0.05), and no one needed flap revision. There was no significant difference in nasal respiration and nasal resistance before and after surgery (P>0.05). ConclusionWith the help of computer fluid dynamics analysis, it is possible to predict the threshold size of lateral pharyngeal port without obviously increasing upper airway resistance and reduce the risk of suffering from airway obstruction for patients undergoing PPF surgery.