Wang Wei-feng, Xin Hai-tao, Zang Shun-lai, Ding Jie
Department of Prosthodontics, College of Stomatology, The Fourth Military Medical University, Xi'an 710032, China.
Zhonghua Kou Qiang Yi Xue Za Zhi. 2012 Apr;47(4):229-32. doi: 10.3760/cma.j.issn.1002-0098.2012.04.009.
To study the remodeling of the anterior alveolar bone with parodontium under physiology loading using finite element method (FEM) and theory of bone remodeling.
A FEM model of the maxillary central incisor with parodontium was established, and the change of bone density during the remodeling of alveolar bone was investigated under physiology loading (60 - 150 N) based on the theory of bone remodeling about strain energy density (SED). The finite element analysis software Abaqus user material subroutine (UMAT) were used.
With the increase of physiology loading, the pressure stress on the buccal cervical margin increased gradually while the density was decreased gradually. The cortical bone was lower than its initial density 1.74 g/cm(3), which was 1.74 - 1.63 g/cm(3). The density of cancellous bone was 0.90 - 0.77 g/cm(3), which was lower than its intial density 0.90 g/cm(3). The lingual cervical margin was under tensile stress which also increased with loading, the density had no significant change. When the achieve to 120 N, the density of cortical bone was 1.74 - 1.73 g/cm(3). No significant change was found in the cancellous bone.
The simulation of the perodontium remodeling is achieved and proved to be effective by the relevant research based on the method of the study. And the result will be helpful to form the basis of analysis bone remodeling process and predict the results in the clinical work.
采用有限元法(FEM)和骨重塑理论,研究生理负荷下前牙牙槽骨与牙周组织的重塑情况。
建立上颌中切牙及其牙周组织的有限元模型,基于应变能密度(SED)骨重塑理论,研究生理负荷(60 - 150 N)下牙槽骨重塑过程中骨密度的变化。使用有限元分析软件Abaqus用户材料子程序(UMAT)。
随着生理负荷增加,颊侧颈部边缘的压应力逐渐增大,而密度逐渐降低。皮质骨密度低于其初始密度1.74 g/cm³,为1.74 - 1.63 g/cm³。松质骨密度为0.90 - 0.77 g/cm³,低于其初始密度0.90 g/cm³。舌侧颈部边缘处于拉应力状态,且拉应力也随负荷增加而增大,但其密度无明显变化。当负荷达到120 N时,皮质骨密度为1.74 - 1.73 g/cm³。松质骨密度无明显变化。
通过本研究方法进行的相关研究实现了对牙周组织重塑的模拟,且证明是有效的。该结果将有助于为分析骨重塑过程和预测临床工作结果奠定基础。
