不同直径即刻负重种植体的种植体-骨界面应力分布:三维有限元分析
Implant-bone interface stress distribution in immediately loaded implants of different diameters: a three-dimensional finite element analysis.
作者信息
Ding Xi, Zhu Xing-Hao, Liao Sheng-Hui, Zhang Xiu-Hua, Chen Hong
机构信息
Department of Stomatology, The First Affiliated Hospital of Wenzhou Medical College, Wenzhou, Zhejiang Province, China.
出版信息
J Prosthodont. 2009 Jul;18(5):393-402. doi: 10.1111/j.1532-849X.2009.00453.x. Epub 2009 Apr 3.
PURPOSE
To establish a 3D finite element model of a mandible with dental implants for immediate loading and to analyze stress distribution in bone around implants of different diameters.
MATERIALS AND METHODS
Three mandible models, embedded with thread implants (ITI, Straumann, Switzerland) with diameters of 3.3, 4.1, and 4.8 mm, respectively, were developed using CT scanning and self-developed Universal Surgical Integration System software. The von Mises stress and strain of the implant-bone interface were calculated with the ANSYS software when implants were loaded with 150 N vertical or buccolingual forces.
RESULTS
When the implants were loaded with vertical force, the von Mises stress concentrated on the mesial and distal surfaces of cortical bone around the neck of implants, with peak values of 25.0, 17.6 and 11.6 MPa for 3.3, 4.1, and 4.8 mm diameters, respectively, while the maximum strains (5854, 4903, 4344 muepsilon) were located on the buccal cancellous bone around the implant bottom and threads of implants. The stress and strain were significantly lower (p < 0.05) with the increased diameter of implant. When the implants were loaded with buccolingual force, the peak von Mises stress values occurred on the buccal surface of cortical bone around the implant neck, with values of 131.1, 78.7, and 68.1 MPa for 3.3, 4.1, and 4.8 mm diameters, respectively, while the maximum strains occurred on the buccal surface of cancellous bone adjacent to the implant neck, with peak values of 14,218, 12,706, and 11,504 microm, respectively. The stress of the 4.1-mm diameter implants was significantly lower (p < 0.05) than those of 3.3-mm diameter implants, but not statistically different from that of the 4.8 mm implant.
CONCLUSIONS
With an increase of implant diameter, stress and strain on the implant-bone interfaces significantly decreased, especially when the diameter increased from 3.3 to 4.1 mm. It appears that dental implants of 10 mm in length for immediate loading should be at least 4.1 mm in diameter, and uniaxial loading to dental implants should be avoided or minimized.
目的
建立用于即刻负重的含牙种植体下颌骨三维有限元模型,并分析不同直径种植体周围骨组织的应力分布情况。
材料与方法
利用CT扫描和自主研发的通用外科集成系统软件,构建了三个分别植入直径为3.3、4.1和4.8 mm螺纹种植体(瑞士士卓曼公司的ITI种植体)的下颌骨模型。当种植体承受150 N垂直或颊舌向力时,使用ANSYS软件计算种植体 - 骨界面的von Mises应力和应变。
结果
当种植体承受垂直力时,von Mises应力集中在种植体颈部周围皮质骨的近中和远中表面,直径为3.3、4.1和4.8 mm的种植体峰值分别为25.0、17.6和11.6 MPa,而最大应变(5854、4903、4344 με)位于种植体底部和种植体螺纹周围的颊侧松质骨。随着种植体直径增加,应力和应变显著降低(p < 0.05)。当种植体承受颊舌向力时,von Mises应力峰值出现在种植体颈部周围皮质骨的颊侧表面,直径为3.3、4.1和4.8 mm的种植体应力值分别为131.1、78.7和68.1 MPa,而最大应变出现在与种植体颈部相邻的松质骨颊侧表面,峰值分别为14218、12706和11504 μm。直径4.1 mm种植体的应力显著低于直径3.3 mm的种植体(p < 0.05),但与直径4.8 mm种植体的应力无统计学差异。
结论
随着种植体直径增加,种植体 - 骨界面的应力和应变显著降低,尤其是当直径从3.3 mm增加到4.1 mm时。似乎用于即刻负重的长度为10 mm的牙种植体直径应至少为4.1 mm,并且应避免或尽量减少对牙种植体的单轴加载。
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