咬合加载位置对传递至种植体支持修复体及支持骨的应力的影响:一项三维有限元研究。
The influence of occlusal loading location on stresses transferred to implant-supported prostheses and supporting bone: A three-dimensional finite element study.
作者信息
Eskitascioglu Gurcan, Usumez Aslihan, Sevimay Mujde, Soykan Emel, Unsal Elif
机构信息
Selcuk University, Konya, Turkey.
出版信息
J Prosthet Dent. 2004 Feb;91(2):144-50. doi: 10.1016/j.prosdent.2003.10.018.
STATEMENT OF PROBLEM
Information about the influence of occlusal loading by location on the stress distribution in an implant-supported fixed partial denture and supporting bone tissue is limited.
PURPOSE
The purpose of this study was to investigate the effect of loading at 1 to 3 different locations on the occlusal surface of a tooth on the stress distributions in an implant-supported mandibular fixed partial denture (FPD) and surrounding bone, using 3-dimensional finite element analysis.
MATERIAL AND METHODS
A 3-dimensional finite element model of a mandibular section of bone (Type 2) with missing second premolar and its superstructures were used in this study. A 1-piece 4.1 x 10-mm screw-shape ITI dental implant system (solid implant) was modeled for this study. Cobalt-Chromium (Wiron 99) was used as the crown framework material and porcelain was used for occlusal surface. The implant and its superstructure were simulated in a Pro/Engineer 2000i program. Total loads at 300 N were applied at the following locations: 1) tip of buccal cusp (300 N); 2) tip of buccal cusp (150 N) and distal fossa (150 N); or 3) tip of buccal cusp (100 N), distal fossa (100 N), and mesial fossa (100 N).
RESULTS
The results demonstrated that vertical loading at 1 location resulted in high stress values within the bone and implant. Close stress levels were observed within the bone for loading at 2 locations and 3 locations; the former created the most extreme stresses and the latter the most even stresses within the bone. With loading at 2 or 3 locations, stresses were concentrated on the framework and occlusal surface of the FPD, and low stresses were distributed to the bone.
CONCLUSION
For the loading conditions investigated, the optimal combination of vertical loading was found to be loading at 2 or 3 locations which decreased the stresses within the bone. In this situation, von Mises stresses were concentrated on the framework and occlusal surface of the FPD.
问题陈述
关于牙合面不同位置加载对种植体支持的固定局部义齿及支持骨组织应力分布的影响,相关信息有限。
目的
本研究旨在通过三维有限元分析,探讨在牙合面上1至3个不同位置加载对种植体支持的下颌固定局部义齿(FPD)及周围骨组织应力分布的影响。
材料与方法
本研究采用了一个缺失第二前磨牙的下颌骨(2型)节段及其上部结构的三维有限元模型。为此研究构建了一个一体式4.1×10毫米螺纹形状的ITI牙种植系统(实心种植体)模型。钴铬合金(Wiron 99)用作冠桥支架材料,牙合面采用瓷材料。种植体及其上部结构在Pro/Engineer 2000i程序中进行模拟。在以下位置施加300 N的总载荷:1)颊尖顶端(300 N);2)颊尖顶端(150 N)和远中窝(150 N);或3)颊尖顶端(100 N)、远中窝(100 N)和近中窝(100 N)。
结果
结果表明,在一个位置垂直加载会导致骨组织和种植体内出现高应力值。在两个位置和三个位置加载时,骨组织内观察到相近的应力水平;前者在骨组织内产生的应力最为极端,后者产生的应力最为均匀。在两个或三个位置加载时,应力集中在FPD的支架和牙合面上,而骨组织上的应力分布较低。
结论
对于所研究的加载条件,发现垂直加载的最佳组合是在两个或三个位置加载,这可降低骨组织内的应力。在这种情况下,冯·米塞斯应力集中在FPD的支架和牙合面上。
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