Evaluation of biomechanical effects of different implant thread designs and diameters on all-on-four concept

IF 0.5 Q4 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of Osseointegration Pub Date : 2021-09-10 DOI:10.23805/JO.2021.13.03.1

Z. F. Zor, Y. Kılınç, E. Erkmen, A. Kurt

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引用次数: 0

Abstract

Aim All-on-four concept involves the use of four anterior dental implants in the edentulous jaw to overcome anatomic limitations of residual alveolar bone. The impact of implant thread design and diameter on the biomechanical performance of all-on-four concept is not yet fully understood. The purpose of this study was to investigate the biomechanical behavior of all-on-four concept with different combinations of thread designs and diameters through a three dimensional Finite Element Analysis. Materials and methods Six three-dimensional finite element models of edentulous mandible were developed. The models included the combinations of 3.5 and 4.3 mm diameter implants with active and passive thread designs. Vertical, oblique and horizontal loads were applied anterior to the end of the cantilever. Von Mises, maximum principal and minimum principal stresses were analysed. Results The results indicated a tendency towards stress reduction in Von Mises stress values of dental implants with the increase in diameter for both mesial and distal implants. In narrow implants active thread design resulted in lower Von Mises stress values than passive thread design. Active thread design demonstrated higher bone stress when compared to passive thread design. The analysis also revealed the importance of mesial implant for diminishing stresses on the distal implant and their surrounding bone under horizontal and oblique loading. Conclusion The comparison of the models suggest that use of wide implant is advantageous in the all-on-four concept. There is a biomechanical advantage in using narrow implants with active thread design in horizontally inadequate bone. The thread design was more significant in terms of increasing bone stress than implant diameter. The mesial implant influences the biomechanical behavior of the whole design, contributing to a more favorable stress distribution under horizontal and oblique loading conditions.

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不同种植体螺纹设计和直径对全- 4概念的生物力学影响评估

目的all -on- 4的概念涉及在无牙颌中使用四个前牙种植体来克服残余牙槽骨的解剖限制。种植体螺纹设计和直径对all-on-four概念生物力学性能的影响尚不完全清楚。本研究的目的是通过三维有限元分析来研究不同螺纹设计和直径组合的all- in -four概念的生物力学行为。材料与方法建立了无牙下颌骨的6个三维有限元模型。模型包括3.5和4.3 mm直径种植体的组合，采用主动和被动螺纹设计。垂直、斜向和水平荷载被施加到悬臂的前端。Von Mises分析了最大主应力和最小主应力。结果随着种植体直径的增大，种植体的Von Mises应力值均有减小的趋势。在窄种植体中，主动螺纹设计的Von Mises应力值比被动螺纹设计的低。与被动螺纹设计相比，主动螺纹设计显示出更高的骨应力。分析还揭示了在水平和斜向载荷下，近端种植体对减少远端种植体及其周围骨的应力的重要性。结论采用宽种植体进行全- 4位固定术是有优势的。在水平不充分的骨中使用窄的主动螺纹植入物具有生物力学上的优势。螺纹设计在增加骨应力方面比种植体直径更显著。中位种植体影响整个设计的生物力学行为，有助于在水平和倾斜载荷条件下更有利的应力分布。

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

Journal of Osseointegration DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

0.90

自引率

25.00%

发文量

审稿时长

20 weeks