OBJECTIVES: The objective of this study was to evaluate the effects of mandibular advancement on oropharyngeal dimension and collapsibility and reveal the predominate site of change produced by mandibular advancement in patients with obstructive sleep apnea (OSA). STUDY DESIGN: Sixteen adults (13 males and 3 females) with symptomatic mild to severe OSA participated. Custom-made silicone mandibular positioners were used to keep the mandible at 67% of maximum advancement. Changes in the oropharyngeal size and collapsibility with mandibular advancement were evaluated using ultrafast computed tomography taken during wakefulness and midazolam-induced sleep. Cross-sectional areas were assessed using electron beam tomography at 4 levels: high retropalatal (HRP), low retropalatal (LRP), high retroglossal (HRG), and low retroglossal (LRG). RESULTS: During sleep, the minimum cross-sectional areas decreased 36.5%, 67.8%, 75.5%, and 65.8% at each level of HRP, LRP, HRG, and LRG respectively, as compared with those measured during wakefulness. Mandibular advancement during sleep increased 75.7%, 141.3%, 128.1%, and 119.9% at each level. The oropharynx showed 70.3%, 110.4%, 140.3%, and 156.9% increase in the Collapsibility Indices during sleep at each level of HRP, LRP, HRG, and LRG, respectively, compared with wakefulness. However, collapsibility indices decreased 29.1%, 23.2%, 21.4%, and 34.1% at each level with mandibular advancement. CONCLUSION: Mandibular advancement increases oropharyngeal diameter and decreases oropharyngeal collapsibility during midazolam-induced sleep respiration at the retropalatal as well as the retroglossal region in most patients with OSA. Copyright (c) 2010 Mosby, Inc. All rights reserved.
OBJECTIVES: The objective of this study was to evaluate the effects of mandibular advancement on oropharyngeal dimension and collapsibility and reveal the predominate site of change produced by mandibular advancement in patients with obstructive sleep apnea (OSA). STUDY DESIGN: Sixteen adults (13 males and 3 females) with symptomatic mild to severe OSA participated. Custom-made silicone mandibular positioners were used to keep the mandible at 67% of maximum advancement. Changes in the oropharyngeal size and collapsibility with mandibular advancement were evaluated using ultrafast computed tomography taken during wakefulness and midazolam-induced sleep. Cross-sectional areas were assessed using electron beam tomography at 4 levels: high retropalatal (HRP), low retropalatal (LRP), high retroglossal (HRG), and low retroglossal (LRG). RESULTS: During sleep, the minimum cross-sectional areas decreased 36.5%, 67.8%, 75.5%, and 65.8% at each level of HRP, LRP, HRG, and LRG respectively, as compared with those measured during wakefulness. Mandibular advancement during sleep increased 75.7%, 141.3%, 128.1%, and 119.9% at each level. The oropharynx showed 70.3%, 110.4%, 140.3%, and 156.9% increase in the Collapsibility Indices during sleep at each level of HRP, LRP, HRG, and LRG, respectively, compared with wakefulness. However, collapsibility indices decreased 29.1%, 23.2%, 21.4%, and 34.1% at each level with mandibular advancement. CONCLUSION: Mandibular advancement increases oropharyngeal diameter and decreases oropharyngeal collapsibility during midazolam-induced sleep respiration at the retropalatal as well as the retroglossal region in most patients with OSA. Copyright (c) 2010 Mosby, Inc. All rights reserved.
Authors: Ana Célia Faria; Savio Nogueira da Silva-Junior; Luis Vicente Garcia; Antonio Carlos dos Santos; Maria Regina França Fernandes; Francisco Veríssimo de Mello-Filho Journal: Sleep Breath Date: 2012-05-06 Impact factor: 2.816
Authors: B Piskin; O Karakoc; H Genc; S Akay; C Sipahi; M Erdem; B Karaman; S Gorgulu; S Yetkin; S Ayyildiz Journal: J Orofac Orthop Date: 2015-01-22 Impact factor: 1.938
Authors: Maite Barbero; Carlos Flores-Mir; Juan Calvo Blanco; Valentin Cabriada Nuño; Joan Brunso Casellas; Jose Luis Calvo Girado; Julio Alvarez Amezaga; Felix De Carlos Journal: J Clin Sleep Med Date: 2020-10-15 Impact factor: 4.062
Authors: Toru Ogawa; Jianlan Long; Kate Sutherland; Andrew S L Chan; Keiichi Sasaki; Peter A Cistulli Journal: Sleep Breath Date: 2015-01-13 Impact factor: 2.816