Department of Forensic Odontology, Anthropology and Human Identification, Faculty of Dental Medicine, Lebanese University, Beirut, Lebanon.
Department of Orthodontics, Faculty of Dental Medicine, Lebanese University, Beirut, Lebanon.
J Orofac Orthop. 2021 Mar;82(2):111-120. doi: 10.1007/s00056-020-00256-0. Epub 2020 Oct 27.
Studies of the association between palatal rugae (PR) and malocclusion are scarce. While unstable following treatment such as rapid maxillary expansion, we hypothesized that PR differ among malocclusions because of genetic determination but also different environmental conditions during development. Our goal was to assess the possible association between PR morphometric measurements and both sagittal and vertical characteristics of malocclusion.
Maxillary pretreatment dental casts of 243 nongrowing individuals (115 males, 128 females, age 25.5 ± 7.5 years) were laser scanned (Perceptron ScanWorks® V5, Hallam VIC, Australia); angular and linear measurements of the first three PR were recorded in transverse and anteroposterior directions. Cephalometric measurements were obtained from corresponding digitized lateral cephalograms. Statistics included analyses of variance to compare PR measurements among sagittal (class I, class II divisions 1 and 2, class III) and vertical (hypodivergent, normodivergent, hyperdivergent) malocclusion groups and the Pearson correlations among PR dimensions and cephalometric measurements.
PR measurements were statistically different between malocclusions, especially with respect to vertical patterns. A majority of transverse and anteroposterior rugae measurements were greatest in class II division 2 subjects. PR were more anteriorly directed in hypodivergent than hyperdivergent groups; the transverse separation between opposing rugae points was smaller. Correlations were generally low.
The findings suggest the possibility for PR to adapt to environmental effects in developing malocclusions, mostly in the class II division 2 phenotype. This premise reinforces the need to explore in longitudinal studies the long-term environmental influences on rugae superimposed on their genetically determined morphological pattern.
腭皱(PR)与错畸形之间相关性的研究较少。虽然快速上颌扩张等治疗后不稳定,但我们假设 PR 因遗传决定以及发育过程中的不同环境条件而在不同的错畸形中存在差异。我们的目标是评估 PR 形态测量与错畸形矢状和垂直特征之间的可能关联。
对 243 名非生长个体(115 名男性,128 名女性,年龄 25.5±7.5 岁)的上颌预处理牙模进行激光扫描(Perceptron ScanWorks® V5,澳大利亚 Hallam VIC);记录第一三个 PR 的横向和前后向的角度和线性测量。头影测量值从相应的数字化侧位头颅影像获得。统计分析包括方差分析,以比较矢状(I 类、II 类 1 分和 2 分、III 类)和垂直(低角、均角、高角)错畸形组之间的 PR 测量值,以及 PR 维度和头影测量值之间的 Pearson 相关性。
PR 测量值在错畸形之间存在统计学差异,尤其是垂直模式。大多数横向和前后向皱襞测量值在 II 类 2 分的受试者中最大。与高角组相比,低角组 PR 更向前;相对皱襞点之间的横向间距较小。相关性通常较低。
研究结果表明 PR 有可能适应发育性错畸形中的环境影响,主要是在 II 类 2 分表型中。这一前提强调了在纵向研究中探索长期环境对皱襞的影响,这些影响叠加在其遗传决定的形态模式之上。
