单侧上颌骨缺损种植体选择的生物力学评价：有限元分析。

Biomechanical evaluation of implant options for unilateral maxillary defects: a finite element analysis.

机构信息

Oral and Maxillofacial Surgery Department, Faculty of Dentistry, Hacettepe University, Campus of Sıhhıye, Altındağ, Ankara, 06100, Turkey.

出版信息

BMC Oral Health. 2024 Nov 1;24(1):1338. doi: 10.1186/s12903-024-05100-0.

DOI:10.1186/s12903-024-05100-0

PMID:39487496

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11529234/

Abstract

OBJECTIVE

This study aimed to evaluate stress distribution in unilateral maxillary defects using finite element analysis (FEA) to compare subperiosteal (SI) and zygomatic implants (ZI).

MATERIALS AND METHODS

A 3D model of a unilaterally atrophied maxilla was reconstructed from CT scans. Five scenarios were simulated: (1) quad zygoma implants (SC1), (2) zygoma and conventional implants (SC2), (3) two-piece SI and conventional implants (SC3), (4) one-piece SI and conventional implants (SC4) and (5) one-piece SI implant (SC5). Mechanical properties were assigned based on data in the literature; a 450 N force for occlusal loading and a 93 N force for oblique loads were applied.

RESULTS

Under vertical loading, SC2 exhibited the highest tensile stress (Pmax) in the atrophic region (R-AM), while SC4 showed the lowest Pmax across the entire maxilla, indicating better stress distribution. Under oblique forces, SC2 also showed the highest Pmax in R-AM, while SC5 had the lowest Pmax overall. Minimum principal stress (Pmin) followed similar patterns, with SC4 and SC5 demonstrating lower stress levels than the other scenarios. Abutment stresses were highest in SC2 and lowest in SC4. Overall, the SI scenarios (SC3-SC5) exhibited lower stress transmission to the alveolar bone than the ZI scenarios (SC1 and SC2), with SC4 providing the most balanced stress distribution across all regions.

CONCLUSIONS

SI implants, mainly the one-piece SI (SC4), offered a more favourable stress distribution than ZI implants in unilateral maxillary defects, reducing the risk of excessive bone stress. This finding suggests that SI implants may be superior for such cases, although individual patient anatomy should guide implant selection. Further clinical studies are necessary to confirm these biomechanical findings in vivo.

CLINICAL RELEVANCE

This study underscores the crucial role of implant selection in minimising stress on the alveolar bone in unilateral maxillary defects. Based on these findings, we recommend personalised implant strategies based on biomechanical insights to enhance outcomes in maxillofacial reconstruction.

摘要

目的

本研究旨在通过有限元分析（FEA）评估单侧上颌骨缺损的应力分布，比较骨膜下（SI）和颧骨种植体（ZI）。

材料和方法

从 CT 扫描重建单侧萎缩上颌骨的 3D 模型。模拟了五种情况：（1）四枚颧骨种植体（SC1），（2）颧骨和常规种植体（SC2），（3）两段式 SI 和常规种植体（SC3），（4）一体式 SI 和常规种植体（SC4）和（5）一体式 SI 种植体（SC5）。根据文献中的数据分配机械性能；施加 450N 的咬合载荷和 93N 的斜向载荷。

结果

在垂直加载下，SC2 在萎缩区域（R-AM）表现出最高的拉伸应力（Pmax），而 SC4 在整个上颌骨中表现出最低的 Pmax，表明具有更好的应力分布。在斜向力下，SC2 也在 R-AM 中表现出最高的 Pmax，而 SC5 总体上具有最低的 Pmax。最小主应力（Pmin）呈现类似的模式，SC4 和 SC5 表现出较低的应力水平。基台的应力在 SC2 中最高，在 SC4 中最低。总体而言，SI 方案（SC3-SC5）比 ZI 方案（SC1 和 SC2）向牙槽骨传递的应力更低，SC4 在所有区域提供了更平衡的应力分布。

结论

在单侧上颌骨缺损中，SI 种植体，主要是一体式 SI（SC4），比 ZI 种植体提供更有利的应力分布，降低了牙槽骨过度受力的风险。这一发现表明，在这种情况下，SI 种植体可能更具优势，尽管应根据患者的个体解剖结构来指导种植体的选择。需要进一步的临床研究来确认这些生物力学发现的体内结果。

临床相关性

本研究强调了在单侧上颌骨缺损中，选择种植体以最小化牙槽骨受力的重要性。基于这些发现，我们建议根据生物力学见解制定个性化的种植体策略，以提高颌面重建的效果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e01e/11529234/7648be9c8a84/12903_2024_5100_Figa_HTML.jpg

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单侧上颌骨缺损种植体选择的生物力学评价：有限元分析。

Biomechanical evaluation of implant options for unilateral maxillary defects: a finite element analysis.

机构信息

出版信息

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

CLINICAL RELEVANCE

目的

材料和方法

结果

结论

临床相关性

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