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本文引用的文献

1
Vertical growth in mono-and dizygotic twins: A longitudinal cephalometric cohort study.单卵和双卵双胞胎的垂直生长:一项纵向头颅测量队列研究。
Orthod Craniofac Res. 2020 May;23(2):192-201. doi: 10.1111/ocr.12358. Epub 2019 Dec 4.
2
Facial soft tissue growth in identical twins.同卵双胞胎的面部软组织生长。
Am J Orthod Dentofacial Orthop. 2018 Nov;154(5):683-692. doi: 10.1016/j.ajodo.2018.01.020.
3
Heritability of Facial Skeletal and Dental Characteristics of Monozygotic and Dizygotic Twins Using Cephalometric Analysis and Falconer's Method.使用头影测量分析和Falconer方法对单卵双胞胎和双卵双胞胎面部骨骼及牙齿特征的遗传度研究
J Craniofac Surg. 2018 May;29(3):e274-e279. doi: 10.1097/SCS.0000000000004313.
4
Facial attractiveness of skeletal class I and class II malocclusion as perceived by laypeople, patients and clinicians.普通大众、患者及临床医生对安氏Ⅰ类和Ⅱ类错牙合面部美观的认知
Minerva Stomatol. 2018 Jun;67(3):77-85. doi: 10.23736/S0026-4970.18.04111-0. Epub 2018 Jan 5.
5
Heritability of mandibular cephalometric variables in twins with completed craniofacial growth.颅面生长已完成的双胞胎下颌骨测量变量的遗传度
Eur J Orthod. 2016 Oct;38(5):493-502. doi: 10.1093/ejo/cjv062. Epub 2015 Oct 25.
6
Relationships between Malocclusion, Body Posture, and Nasopharyngeal Pathology in Pre-Orthodontic Children.正畸治疗前儿童的错牙合畸形、身体姿势与鼻咽部病理学之间的关系。
Med Sci Monit. 2015 Jun 18;21:1765-73. doi: 10.12659/MSM.893395.
7
Comparing Facial 3D Analysis With DNA Testing to Determine Zygosities of Twins.比较面部三维分析与DNA检测以确定双胞胎的合子性
Twin Res Hum Genet. 2015 Jun;18(3):306-13. doi: 10.1017/thg.2015.16. Epub 2015 Apr 14.
8
The prevalence of malocclusion and oral habits among 5-7-year-old children.5至7岁儿童错牙合畸形及口腔习惯的患病率。
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9
Genetic and environmental influences on human dental variation: a critical evaluation of studies involving twins.人类牙齿变异的遗传和环境影响:对涉及双胞胎的研究的批判性评估。
Arch Oral Biol. 2009 Dec;54 Suppl 1(Suppl 1):S45-51. doi: 10.1016/j.archoralbio.2008.06.009. Epub 2008 Aug 19.
10
On the probability of dizygotic twins being concordant for two alleles at multiple polymorphic loci.关于异卵双胞胎在多个多态性位点上两个等位基因一致的概率。
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15-18 岁单卵和双卵双胞胎垂直生长的遗传和环境因素。

Genetic and environmental components of vertical growth in mono- and dizygotic twins up to 15-18 years of age.

出版信息

Angle Orthod. 2021 May 1;91(3):384-390. doi: 10.2319/060520-515.1.

DOI:10.2319/060520-515.1
PMID:33523142
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8084456/
Abstract

OBJECTIVES

To determine the additive genetic and environmental contributions to the vertical growth of craniofacial structures.

MATERIALS AND METHODS

The sample consisted of 64 untreated monozygotic (44 male, 20 female) and 61 untreated dizygotic twins (32 male, 29 female). Lateral cephalograms taken at 15 and 18 years of age were traced to analyze the sella-nasion-nasal line angle (SN-NL), nasal line-mandibular line angle (ML-NL), sella-nasion-mandibular line angle (SN-ML), sella-nasion-sella-gnathion angle (Y-axis), posterior face height/anterior face height (PFH/AFH), and lower anterior face height/anterior face height (LAFH/AFH). The genetic and environmental components of variance were analyzed with structural equation modeling for multilevel mixed effects.

RESULTS

At 15 years of age, strong dominant genetic control was seen for NL-ML (81%), LAFH/AFH (73%), and Y-axis (57%), whereas strong additive genetic components were found for PFH/AFH (78%), SN-NL (58%), and SN-ML (57%). Unique environmental factors accounted for 18-42% of observed variance, with SN-NL being affected the most (42%). At 18 years of age, only LAFH/AFH (86%) was under strong dominant genetic control, whereas the remainder were under additive genetic influence. The sole exception was SN-NL, which changed from additive to unique environmental influence.

CONCLUSIONS

Either additive or dominant genetic components were found at 15 or 18 years of age for most vertical variables. Environmental factors accounted for about 10-40%, with SN-NL being mostly affected.

摘要

目的

确定颅面结构垂直生长的加性遗传和环境贡献。

材料和方法

样本包括 64 名未经治疗的同卵(44 名男性,20 名女性)和 61 名未经治疗的异卵双胞胎(32 名男性,29 名女性)。15 岁和 18 岁时拍摄的侧颅面片被追踪分析蝶鞍-前鼻棘-鼻线角(SN-NL)、鼻线-下颌线角(ML-NL)、蝶鞍-下颌-前鼻棘角(SN-ML)、蝶鞍-前鼻棘-蝶骨-颏骨角(Y 轴)、后颜面高/前颜面高(PFH/AFH)和下前颜面高/前颜面高(LAFH/AFH)。使用多层次混合效应的结构方程模型分析方差的遗传和环境成分。

结果

15 岁时,NL-ML(81%)、LAFH/AFH(73%)和 Y 轴(57%)表现出强烈的显性遗传控制,而 PFH/AFH(78%)、SN-NL(58%)和 SN-ML(57%)则表现出强烈的加性遗传成分。独特的环境因素占观察到的方差的 18-42%,其中 SN-NL 受影响最大(42%)。18 岁时,只有 LAFH/AFH(86%)受到强烈的显性遗传控制,而其余的则受到加性遗传的影响。唯一的例外是 SN-NL,它从加性遗传变为独特的环境遗传影响。

结论

大多数垂直变量在 15 岁或 18 岁时都存在加性或显性遗传成分。环境因素占 10-40%左右,其中 SN-NL 受影响最大。