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腭裂患者的植入动态。

The dynamics in implantation for patients with clefts.

作者信息

Nagasao Tomohisa, Miyamoto Junpei, Jin Hongmei, Tamaki Tamotsu, Isshiki Yasushige, Kaneko Tsuyoshi, Nakajima Tatsuo

机构信息

Department of Plastic Surgery, School of Medicine, Keio University, Tokyo, Japan.

出版信息

Cleft Palate Craniofac J. 2006 Jan;43(1):84-91. doi: 10.1597/04-091r1.1.

DOI:10.1597/04-091r1.1
PMID:16405380
Abstract

OBJECTIVE

To investigate the stresses and strains of an endosseous dental implant in patients with different types of cleft palate in a finite element model.

MATERIALS AND METHODS

Seven three-dimensional (3D) maxillary models were designed on a personal computer according to computed tomography slice data obtained from seven dry skulls. Next, computer-aided modification was performed on each model to produce three other 3D models with different cleft patterns. Thus, four model types with different cleft patterns were designed and termed NORM (without cleft), ALVEOLAR (only alveolar cleft), PALATAL (only palatal cleft), and COMPLETE (complete cleft). An implant was embedded into the molar region of each model, and a 300-N vertical load and 50-N horizontal load were applied to simulate mastication. Under these conditions, the stresses occurring at the implant-bone interface were calculated by finite element analysis.

RESULTS

Different stress patterns were observed between the models with a palatal cleft (PALATAL and COMPLETE) and those without palatal cleft (NORM and ALVEOLAR). Regarding vertical load application, greater stresses occurred in PALATAL and COMPLETE types than in NORM and ALVEOLAR types. On application of a horizontal load, though the stresses did not show quantitative difference, their vector patterns differed.

CONCLUSION

In patients with palatal clefts, characteristic stress patterns occur on the bone-implant interface during mastication. This should be taken into consideration when performing an implant treatment in patients with clefts.

摘要

目的

在有限元模型中研究不同类型腭裂患者骨内牙种植体的应力和应变。

材料与方法

根据从七个干燥颅骨获取的计算机断层扫描切片数据,在个人计算机上设计七个三维(3D)上颌模型。接下来,对每个模型进行计算机辅助修改,以生成另外三个具有不同腭裂模式的3D模型。因此,设计了四种具有不同腭裂模式的模型类型,分别称为正常(无腭裂)、牙槽突裂(仅牙槽突裂)、腭裂(仅腭裂)和完全性腭裂(完全腭裂)。将种植体植入每个模型的磨牙区,并施加300N的垂直载荷和50N的水平载荷以模拟咀嚼。在这些条件下,通过有限元分析计算种植体 - 骨界面处产生的应力。

结果

在有腭裂的模型(腭裂和完全性腭裂)与无腭裂的模型(正常和牙槽突裂)之间观察到不同的应力模式。关于垂直载荷的施加,腭裂和完全性腭裂类型产生的应力大于正常和牙槽突裂类型。在施加水平载荷时,尽管应力没有显示出定量差异,但它们的矢量模式不同。

结论

在腭裂患者中,咀嚼过程中骨 - 种植体界面会出现特征性应力模式。在对腭裂患者进行种植治疗时应考虑到这一点。

相似文献

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The dynamics in implantation for patients with clefts.腭裂患者的植入动态。
Cleft Palate Craniofac J. 2006 Jan;43(1):84-91. doi: 10.1597/04-091r1.1.
2
Stress and displacement pattern evaluation using two different palatal expanders in unilateral cleft lip and palate: a three-dimensional finite element analysis.使用两种不同的腭扩展器对单侧唇腭裂进行应力和位移模式评估:三维有限元分析
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Cleft Palate Craniofac J. 2007 Mar;44(2):149-54. doi: 10.1597/05-161.1.
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Int J Prosthodont. 2014 Sep-Oct;27(5):442-50. doi: 10.11607/ijp.3857.

引用本文的文献

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Int J Implant Dent. 2018 Mar 8;4(1):7. doi: 10.1186/s40729-018-0119-5.