Relative contributions of genetic and environmental factors to palatal morphology: a longitudinal twin study.

IF 2.8 3区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE European journal of orthodontics Pub Date : 2024-12-04 DOI:10.1093/ejo/cjae076

Jamal Giri, Michelle Bockmann, Alan Brook, Angela Gurr, Lyle Palmer, Matthew Brook O'Donnell, Toby Hughes

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Abstract

Objectives: This study aimed to determine the genetic and environmental contributions to phenotypic variations of palatal morphology during development.

Methods: Longitudinal three-dimensional digital maxillary dental casts of 228 twin pairs (104 monozygotic and 124 dizygotic) at primary, mixed, and permanent dentition stages were included in this study. Landmarks were placed on the casts along the midpoints of the dento-gingival junction on the palatal side of each tooth and the mid-palatine raphe using MeshLab. Palatal widths, depths, length, area, and volume were measured using those landmarks. Univariate genetic structural equation modelling was performed on twin data at each stage of dental development.

Results: Except for anterior depth, all palatal dimensions increased significantly from the primary to permanent dentition stages. The phenotypic variance for most of the palatal dimensions during development was best explained by a model, including additive genetic and non-shared environment variance components. Variance in volume and area in the primary dentition stage was best explained by a model including additive genetic, shared environment, and non-shared environment variance components. For posterior palatal depth and width, narrow-sense heritability estimates were above 0.8 for all dental developmental stages. In contrast, heritability estimates for other palatal traits fluctuated during development.

Limitation: This study was limited to twins of European ancestry.

Conclusions: Additive genetic and non-shared environmental factors primarily influenced palatal morphology during development. While the genetic influence on different aspects of the palate varied throughout development, it was particularly strong in the posterior region of the palate and during the permanent dentition stage.

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遗传和环境因素对腭形态的相对影响：一项纵向双胞胎研究。

目的：本研究旨在确定发育过程中腭形态表型变异的遗传和环境因素。方法：228对双胞胎（同卵双胞胎104对，异卵双胞胎124对）初生、混合和恒牙列阶段的纵向三维上颌数字牙模进行研究。使用MeshLab在铸型上沿每颗牙齿腭侧牙龈交界处和腭中缝的中点放置地标。使用这些标志测量腭的宽度、深度、长度、面积和体积。在牙齿发育的每个阶段对双胞胎数据进行单变量遗传结构方程建模。结果：除前牙深度外，从初级牙列到恒牙列阶段，所有腭尺寸均显著增加。在发育过程中，大多数腭尺寸的表型差异可以用一个模型来解释，该模型包括加性遗传和非共享环境方差成分。初生牙列阶段的体积和面积变异可以用一个包含加性遗传、共享环境和非共享环境变异成分的模型来解释。对于后腭深度和宽度，所有牙齿发育阶段的狭义遗传率估计都在0.8以上。相比之下，其他腭部性状的遗传率估计在发育过程中波动。局限性：本研究仅限于欧洲血统的双胞胎。结论：加性遗传和非共享环境因素主要影响发育过程中腭形态。虽然遗传对上颚不同方面的影响在整个发育过程中各不相同，但在上颚后部和恒牙阶段的影响尤其强烈。

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来源期刊

European journal of orthodontics 医学-牙科与口腔外科

CiteScore

5.50

自引率

7.70%

发文量

审稿时长

4-8 weeks

期刊介绍： The European Journal of Orthodontics publishes papers of excellence on all aspects of orthodontics including craniofacial development and growth. The emphasis of the journal is on full research papers. Succinct and carefully prepared papers are favoured in terms of impact as well as readability.