电邮这篇文章 Effect of biomechanical load factors on the stress-strain state of teeth and underlying bone tissue
- 作者: Olesova E.A.1, Ilyin A.A.1, Em A.V.1, Grishkov M.S.1, Martynov D.V.1
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隶属关系:
- A.I. Burnazyan State Medical Research Center of the FMBA of Russia
- 期: 卷 28, 编号 5 (2024)
- 页面: 462-468
- 栏目: Experimental and Theoretical Investigation
- URL: https://ogarev-online.ru/1728-2802/article/view/313569
- DOI: https://doi.org/10.17816/dent634253
- ID: 313569
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Background: The biomechanical conditions under which teeth, implants, and bone tissue function clearly determine their resistance to overloading and subsequent destruction. However, mathematical modeling has not previously been used to compare functional stress in teeth across a wide range of sensitive biomechanical load conditions.
Aim: To compare the stress-strain state parameters of tooth and socket tissues under various biomechanical load conditions.
Materials and methods: A mathematical model was used to assess the stress-strain state parameters of dental tissue and sockets under vertical and oblique load (150N) with various modeling settings, compared to reference model parameters. The following parameters were assessed: enamel attrition, bone density reduction, bone resorption by 30% and 50%, supra-occlusion, tooth cavity, composite restoration, and ceramic inlay.
Results: Enamel attrition significantly increases stress under vertical and oblique loads: 1.9 and 1.6 times for enamel, and 1.5 and 1.2 times for dentin, respectively. Tooth cavities increase stress by 1.2 and 1.8 times (enamel; vertical and oblique loads, respectively), and 1.3 times (dentin; vertical load). Increased functional load causes a proportional increase in stress in hard tooth tissues and adjacent bone tissues. Supra-occlusion causes a sharp increase in stress in the enamel, with a point stress concentration. When a tooth cavity is filled with a composite or ceramic material, the stress-strain state parameters are similar to those in intact teeth (however, the enamel still experiences a 1.5-fold increase in stress under vertical pressure).
Conclusion: 3D mathematical modeling revealed a significant difference in maximum stress in tooth and socket tissues compared to normal biomechanical conditions, as well as when comparing various sensitive load conditions. Stress in tooth and bone tissues increased in all cases of abnormal biomechanical conditions, especially when oblique load was applied.
作者简介
Emilia Olesova
A.I. Burnazyan State Medical Research Center of the FMBA of Russia
编辑信件的主要联系方式.
Email: emma.olesova@mail.ru
ORCID iD: 0000-0003-4511-6317
SPIN 代码: 5767-9158
MD
俄罗斯联邦, MoscowAlexander Ilyin
A.I. Burnazyan State Medical Research Center of the FMBA of Russia
Email: Alex2017ilyin@yandex.ru
ORCID iD: 0000-0002-8021-4599
SPIN 代码: 2615-2137
MD, Dr. Sci. (Medicine), Professor
俄罗斯联邦, MoscowAlexandra Em
A.I. Burnazyan State Medical Research Center of the FMBA of Russia
Email: alexandra.em.work@gmail.com
ORCID iD: 0000-0001-8590-5279
SPIN 代码: 2057-2173
MD, Cand. Sci. (Medicine), Associate Professor
俄罗斯联邦, MoscowMaxim Grishkov
A.I. Burnazyan State Medical Research Center of the FMBA of Russia
Email: maxim335@yandex.ru
ORCID iD: 0000-0002-2617-8726
SPIN 代码: 3167-9478
MD, Cand. Sci. (Medicine), Associate Professor
俄罗斯联邦, MoscowDmitriy Martynov
A.I. Burnazyan State Medical Research Center of the FMBA of Russia
Email: mdv.dent@gmail.com
ORCID iD: 0000-0002-0136-5621
SPIN 代码: 1956-9162
MD, Cand. Sci. (Medicine), Associate Professor
俄罗斯联邦, Moscow参考
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