The role of periodontal ligament elasticity in periodontal changes - numerical simulation

Q4 Dentistry

Revista Romana de Stomatologie Pub Date : 2022-03-31 DOI:10.37897/rjs.2022.1.5

A. Capră, C. Bîcleşanu, A. M. Buruiană

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Abstract

The clinical applications of oral mucosal biomechanics are particularly important in determining how stimulation can be performed for tissue remodeling, in understanding the level of pressure that can be applied to the painful threshold, in osseous resorption, and the availability of tissue movement. This study shows, through the finite element, the way in which the periodontal ligament behaves at the level of all dental surfaces in nonlinear model and 3 levels of alveolar bone retraction (0 %, 50%, 75%). From the point of view of geometric construction, each model consists of 3 independent components: the alveolar bone, the periodontal ligament (PL) and the tooth. The deformities on the lingual surface are very small compared to the other surfaces. The deformity increases progressively with the loss of the supporting bone. From a physiological point of view, the nonlinear model is much closer to reality because it simulates the reaction of the tissue to its immediate loading by a very low rigidity after which, due to the hydrostatic pressure created in the interstitial fluid, the value of tissue rigidity increases exponentially.

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牙周韧带弹性在牙周变化中的作用-数值模拟

口腔粘膜生物力学的临床应用在确定如何对组织重塑进行刺激、理解可应用于疼痛阈值的压力水平、骨吸收和组织运动的可用性方面尤为重要。本研究通过有限元显示了非线性模型中牙周膜在所有牙面水平和牙槽骨内缩3个水平(0%、50%、75%)的行为方式。从几何结构上看，每个模型由3个独立的部分组成:牙槽骨、牙周韧带(PL)和牙齿。与其他表面相比，舌表面的畸形非常小。随着支撑骨的丧失，畸形逐渐增加。从生理学的角度来看，非线性模型更接近现实，因为它模拟了组织对其即时载荷的反应，其刚度很低，之后，由于间质液中产生的静水压力，组织刚度值呈指数增长。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Revista Romana de Stomatologie

CiteScore

0.10

自引率

0.00%

发文量

审稿时长

4 weeks