Faculty of Dentistry, Hacettepe University, Ankara, Turkey.
Am J Orthod Dentofacial Orthop. 2011 Jun;139(6):e511-21. doi: 10.1016/j.ajodo.2011.02.015.
Our objective was to evaluate the nasal passage (NP) and oropharyngeal (OP) volumes of patients with different dentofacial skeletal patterns.
The study sample consisted of 140 patients (70 boys, 70 girls), divided into 3 groups as Class I (1 ≤ ANB ≤ 3), Class II (ANB > 3), and Class III (ANB < 1), and then further divided into 4 groups as SNA angle ≥ 80°, SNA angle <80°, SNB angle ≥78°, and SNB angle < 78° to evaluate how the positional changes in the maxilla and the mandible affect the OP and NP variables. Differences between groups were determined by using the Kruskal-Wallis test. Correlations between the variables were tested with the Spearman correlation coefficient. The linear multiple regression test was applied to create a model for the airway volumes separately.
The OP volume of the Class II subjects (n = 50) was significantly lower when compared with that of the Class I (n = 46) and Class III subjects (n = 44). The only statistically significant difference for NP volume was observed between the Class I and Class II groups. The mean OP airway volume of subjects with retruded mandibular positions was statistically significantly smaller when compared with the subjects with higher SNB angles. The area of the most constricted region at the base of the tongue (minAx) had a high potential in explaining the OP volume, whereas the NP volume models were not as successful as the OP counterpart. However, minAx was also entered into the NP volume equations as an explanatory variable.
The OP airway volumes of Class II patients were smaller when compared with Class I and Class III patients. It was observed that mandibular position with respect to cranial base had an effect on the OP airway volume. The only significant difference for the NP volume was between the Class I and Class II groups, with a smaller volume observed for the Class II group.
我们的目的是评估不同牙颌面骨骼类型患者的鼻腔(NP)和口咽(OP)容积。
研究样本包括 140 名患者(70 名男孩,70 名女孩),分为 3 组:I 类(1≤ANB≤3)、II 类(ANB>3)和 III 类(ANB<1),然后进一步分为 4 组:SNA 角≥80°、SNA 角<80°、SNB 角≥78°和 SNB 角<78°,以评估上颌和下颌的位置变化如何影响 OP 和 NP 变量。使用 Kruskal-Wallis 检验确定组间差异。使用 Spearman 相关系数检验变量之间的相关性。应用线性多元回归检验分别建立气道容积模型。
与 I 类(n=46)和 III 类(n=44)患者相比,II 类患者(n=50)的 OP 容积明显更小。NP 容积唯一有统计学意义的差异是在 I 类和 II 类组之间。下颌后缩患者的 OP 气道容积明显小于 SNB 角较高的患者。舌根最狭窄区域的面积(minAx)有很大潜力可以解释 OP 容积,而 NP 容积模型不如 OP 模型成功。然而,minAx 也被作为一个解释变量纳入 NP 容积方程。
与 I 类和 III 类患者相比,II 类患者的 OP 气道容积更小。观察到下颌相对于颅底的位置对面咽气道容积有影响。NP 容积唯一有统计学意义的差异是在 I 类和 II 类组之间,II 类组的容积较小。
