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Biomechanical stress and microgap analysis of bone-level and tissue-level implant abutment structure according to the five different directions of occlusal loads.根据五种不同方向的咬合负荷对骨水平和组织水平种植体基台结构进行生物力学应力和微间隙分析。
J Adv Prosthodont. 2020 Oct;12(5):316-321. doi: 10.4047/jap.2020.12.5.316. Epub 2020 Oct 26.
4
Application of Finite Element Analysis in Oral and Maxillofacial Surgery-A Literature Review.有限元分析在口腔颌面外科中的应用——文献综述
Materials (Basel). 2020 Jul 9;13(14):3063. doi: 10.3390/ma13143063.
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Longevity of complete dentures: A systematic review and meta-analysis.全口义齿的寿命:系统评价和荟萃分析。
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Subcrestal placement of dental implants with an internal conical connection of 0.5 mm versus 1.5 mm: Three-year after loading results of a multicentre within-person randomised controlled trial.种植体颈部骨下 0.5 毫米与 1.5 毫米内锥形连接的牙种植体:加载后 3 年的多中心个体内随机对照试验结果。
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Bone Loss in Implants Placed at Subcrestal and Crestal Level: A Systematic Review and Meta-Analysis.种植于牙槽嵴顶以下和牙槽嵴顶水平的种植体骨吸收:一项系统评价与Meta分析
Materials (Basel). 2019 Jan 5;12(1):154. doi: 10.3390/ma12010154.
9
Finite element analysis of dental implants with validation: to what extent can we expect the model to predict biological phenomena? A literature review and proposal for classification of a validation process.具有验证的牙种植体有限元分析:我们能在多大程度上期望模型预测生物学现象?文献综述及验证过程分类建议。
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Adapting the vertical position of implants with a conical connection in relation to soft tissue thickness prevents early implant surface exposure: A 2-year prospective intra-subject comparison.调整具有锥形连接的种植体在软组织厚度方面的垂直位置可预防种植体早期表面暴露:一项为期 2 年的前瞻性个体内比较研究。
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美学区域中嵴顶和嵴下水平种植体植入的比较:有限元分析

Comparison of implant placement at crestal and subcrestal levels in aesthetic zone: A finite element analysis.

作者信息

Özer Taha, Acar Gülin

机构信息

Department of Oral and Maxillofacial Surgery, Hacettepe University, Ankara, Turkey.

出版信息

J Prosthodont. 2026 Jan;35(1):54-60. doi: 10.1111/jopr.13930. Epub 2024 Aug 13.

DOI:10.1111/jopr.13930
PMID:39136220
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12791187/
Abstract

PURPOSE

The success rate of the implant treatment, including aesthetics and long-term survival, relies heavily on preserving crestal peri-implant bone, as it determines the stability and long-term outcomes. This study aimed to demonstrate the stress differences in the crestal bone resulting from dental implant placement at various depths relative to the crestal bone level using finite element analysis.

MATERIALS AND METHODS

Three study models were prepared for implant placement at the crestal bone level (CL), 1 mm depth (SL-1), and 2 mm depth (SL-2). Implants were placed in the maxillary central incisor region of each model, and 100 N vertical and oblique forces were applied. The von Mises, maximum principal (tensile), and minimum principal (compressive) stresses were evaluated.

RESULTS

The CL model exhibited the highest stresses on the implant, abutment, and abutment screws under vertical and oblique forces. For maximum principal stress in the crestal bone under vertical force, the SL-2, SL-1, and CL models recorded values of 6.56, 6.26, and 5.77 MPa, respectively. Under oblique forces, stress values for SL-1, SL-2, and CL were 25.3, 24.91, and 23.76 MPa, respectively. The CL model consistently exhibited the lowest crestal bone stress at all loads and the highest stress values on the implant and its components. Moreover, considering the yield strengths of the materials, no mechanical or physiological complications were noted.

CONCLUSIONS

Placing the implant at the crestal level or subcrestally beyond the cortical layer could potentially reduce stress and minimize crestal bone loss. However, further studies are warranted for confirmation.

摘要

目的

种植治疗的成功率,包括美观度和长期存留率,在很大程度上依赖于保存种植体周围的牙槽嵴骨,因为它决定了稳定性和长期疗效。本研究旨在通过有限元分析来证明在相对于牙槽嵴骨水平的不同深度植入牙种植体时,牙槽嵴骨所产生的应力差异。

材料与方法

制备了三个研究模型,用于在牙槽嵴骨水平(CL)、1mm深度(SL-1)和2mm深度(SL-2)植入种植体。将种植体植入每个模型的上颌中切牙区域,并施加100N的垂直和斜向力。评估了冯·米塞斯应力、最大主应力(拉伸)和最小主应力(压缩)。

结果

CL模型在垂直和斜向力作用下,种植体、基台和基台螺钉上的应力最高。在垂直力作用下牙槽嵴骨的最大主应力方面,SL-2、SL-1和CL模型记录的值分别为6.56MPa、6.26MPa和5.77MPa。在斜向力作用下,SL-1、SL-2和CL的应力值分别为25.3MPa、24.91MPa和23.76MPa。CL模型在所有载荷下始终表现出最低的牙槽嵴骨应力,以及种植体及其部件上的最高应力值。此外,考虑到材料的屈服强度,未发现机械或生理并发症。

结论

将种植体置于牙槽嵴水平或牙槽嵴下皮质层以外可能会降低应力并使牙槽嵴骨吸收最小化。然而,需要进一步的研究来证实。