Conclusion: Quantitative digital imaging upper airway analysis enables surgeons to assess the pre- and postoperative upper airway morphology quantitatively, objectively and accurately, and to correlate these changes in surgical parameters with improvement of obstructive sleep apnea.
Objective: This was a prospective study using a new method of quantitative computer-assisted digital-imaging videoendoscopic upper airway analysis to quantify objectively and correlate the changes in surgical parameters with improvement of obstructive sleep apnea following uvulopalatopharyngoplasty.
Patients and methods: Nineteen male patients underwent uvulopalatopharyngoplasty for obstructive sleep apnea after continuous positive airway pressure trial. All had undergone pre- and postoperative digital imaging upper airway examination, Epworth scores, and polysomnographic studies. Postoperative static and dynamic changes in upper airway parameters were compared, analyzed and correlated with improvement of the apnea-hypopnea index (AHI) by statistical regression.
Results: There were 65.12% and 64.37% improvements in the AHI and Epworth scales, respectively, after uvulopalatopharyngoplasty. Retropalatal areas measured were significantly correlated with improvement of the AHI. A 1 cm2 increase in retropalatal area during Mueller's maneuver in the supine position resulted in an improvement of 32.65 in the AHI; a 1 cm increase in the transverse diameter of the retropalatal area in the erect position resulted in an improvement of 31.83 in the AHI.