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下颌后牙区不同近远中向种植体角度的带夹板冠的骨应力分析:三维有限元研究。

Bone stress analysis of various angulations of mesiodistal implants with splinted crowns in the posterior mandible: a three-dimensional finite element study.

机构信息

Department of Prosthodontics, Kaohsiung Medical University Hospital, Kaohsiung Medical University, Taiwan.

出版信息

Int J Oral Maxillofac Implants. 2010 Jul-Aug;25(4):763-70.

PMID:20657872
Abstract

PURPOSE

Ideally, implants for dental prostheses should be placed parallel to each other. However, anatomic limitations sometimes make nonparallel implants necessary. The purpose of this study was to determine the bone stresses on implants tilted at various angles and to determine what arrangements might carry a higher risk of failure.

MATERIALS AND METHODS

Three-dimensional finite element models were constructed using the mean values measured for the Asian mandible in the first and second molar areas. Eight implants were divided into three tilting types: parallel implants (P1(PP), P2(MM), and P3(DD)), convergent implant apices (C1(PD) and C2(MP)), and divergent implant apices (D1(DP), D2(DM), and D3(PM)). A biting load of 200 N was applied vertically and obliquely on the occlusal central fossa of the splinted crowns. The main effects of each level of the three investigated factors (loading type, relationship of implant apices, and distal tilting of one or both implants) in terms of the stress values were computed for all models.

RESULTS

The loading type was the main factor affecting the stress in bone when comparing implant apices and distal tilting of the implant body. When loading was combined with distal tilting, the stress values were significantly increased, especially in models P3(DD) and C1(PD).

CONCLUSION

The loading type is the main factor affecting the stress distribution for different implantation arrangement. Moreover, placement of the implants with distal tilting should be avoided in the posterior mandible.

摘要

目的

理想情况下,用于牙修复体的种植体应彼此平行放置。然而,解剖学限制有时使得非平行种植体成为必要。本研究的目的是确定以不同角度倾斜的种植体上的骨应力,并确定哪些排列可能具有更高的失败风险。

材料和方法

使用在第一和第二磨牙区域测量的亚洲下颌骨的平均值构建三维有限元模型。将八个种植体分为三种倾斜类型:平行种植体(P1(PP)、P2(MM)和 P3(DD))、会聚种植体尖端(C1(PD)和 C2(MP))和发散种植体尖端(D1(DP)、D2(DM)和 D3(PM))。将 200 N 的咬合力垂直和倾斜地施加到夹板冠的咬合中央窝上。计算了所有模型中三个研究因素(加载类型、种植体尖端关系和一个或两个种植体的远中倾斜)的每个水平对所有模型的应力值的主要影响。

结果

当比较种植体尖端和种植体体部的远中倾斜时,加载类型是影响骨内应力的主要因素。当加载与远中倾斜相结合时,应力值显著增加,尤其是在模型 P3(DD)和 C1(PD)中。

结论

加载类型是影响不同植入物排列的应力分布的主要因素。此外,在后下颌骨中应避免放置具有远中倾斜的种植体。

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