1 Department of Otolaryngology-Head and Neck Surgery, Stanford University School of Medicine, Stanford, California, USA.
2 Department of Head & Neck Surgery, University of California Los Angeles David Geffen School of Medicine, Los Angeles, California, USA.
Otolaryngol Head Neck Surg. 2019 Jul;161(1):171-177. doi: 10.1177/0194599819838262. Epub 2019 Mar 26.
To determine the contribution of the nasal floor and hard palate morphology to nasal obstruction for nonresponders to prior intranasal surgery.
Retrospective case-control study.
Tertiary academic center.
Institutional review board-approved, retrospective institutional database analysis was obtained of a cohort of 575 patients who presented with nasal obstruction over a 21-year period. Of the patients, 89 met inclusion criteria: 52 were placed into the experimental group, defined as having persistent nasal obstruction following endoscopic sinus surgery (ESS), septoplasty, nasal valve repair, and/or turbinoplasty using validated subjective questionnaires, and 37 were placed into the control group, defined as having resolution of subjective nasal obstruction. Computed tomography imaging was presented to 3 blinded experts, who measured numerous nasal airway and hard palate morphology parameters, including anterior nasal floor width, anterior maxillary angle, maxilla width, anterior nasal floor width, and palatal vault height. Standard demographic information, comorbidities, perioperative 22-item Sinonasal Outcome Test (SNOT-22), and follow-up time were also assessed. Wilcox rank sum analysis or test was performed where appropriate.
Follow-up ranged from 2 to 36 months following surgical intervention. Several skeletal characteristics within the upper airway were significantly associated with persistent nasal obstruction, including acute maxillary angle ( = .035), narrow maxillary width ( = .006), and high arched palate ( = .004).
Persistent nasal obstruction may be seen in patients with narrow, high arched hard palate despite prior nasal surgical intervention and may benefit from additional skeletal remodeling procedures such as maxillary expansion.
确定鼻底和硬腭形态对先前鼻内手术无反应者鼻塞的贡献。
回顾性病例对照研究。
三级学术中心。
通过机构审查委员会批准,对在 21 年期间因鼻塞就诊的 575 例患者的队列进行了回顾性机构数据库分析。其中 89 例符合纳入标准:52 例为实验组,定义为内镜鼻窦手术(ESS)、鼻中隔成形术、鼻阀修复术和/或鼻甲成形术后持续存在鼻塞,使用经过验证的主观问卷;37 例为对照组,定义为主观鼻塞缓解。向 3 名盲法专家展示计算机断层扫描成像,专家测量了许多鼻腔气道和硬腭形态参数,包括前鼻底宽度、前上颌角、上颌宽度、前鼻底宽度和腭穹窿高度。还评估了标准人口统计学信息、合并症、围手术期 22 项鼻-鼻窦结局测试(SNOT-22)和随访时间。适当的地方进行 Wilcox 秩和检验或卡方检验。
手术干预后随访时间为 2 至 36 个月。上呼吸道的几个骨骼特征与持续的鼻塞明显相关,包括上颌角急( =.035)、上颌宽度窄( =.006)和高拱形腭( =.004)。
尽管先前进行了鼻部手术干预,但仍可能会在存在狭窄、高拱形硬腭的患者中出现持续的鼻塞,并且可能受益于额外的骨骼重塑手术,如上颌扩张。
