下颌骨矢状劈开截骨术推进术（Obwegeser-Dal Pont 和 Puricelli 技术）稳定性的三维有限元生物力学评估

Biomechanical evaluation of stability after mandibular sagittal split osteotomy for advancement by Obwegeser-Dal Pont and Puricelli techniques using three-dimensional finite elements.

机构信息

Graduate Program in Dentistry, School of Dentistry, Universidade Federal do Rio Grande do Sul, Porto Alegre, RS, Brazil.

Department of Mechanical Engineering, Universidade Federal do Rio Grande do Sul, Porto Alegre, RS, Brazil.

出版信息

Head Face Med. 2024 Nov 6;20(1):67. doi: 10.1186/s13005-024-00468-4.

DOI:10.1186/s13005-024-00468-4

PMID:39506785

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11539696/

Abstract

BACKGROUND

The surgical treatment for mandibular repositioning using a bilateral sagittal split osteotomy (BSSO) favours the development of techniques that result in adequate repair and stability. In Puricelli's mandibular sagittal split osteotomy (PMSSO) proposal, the vertical lateral cut osteotomy is located in the interradicular space between the lower first molar and second premolar.

OBJECTIVES

This in silico study aimed to investigate the mechanical stability of PMSSO and compare it with the classical Obwegeser-Dal Pont technique for mandibular advancement.

MATERIALS AND METHODS

A computational geometric model of the mandible was created in a virtual environment using computer-aided design (CAD) software. After reproducing the advancements, two test groups were developed: GTOD10, Obwegeser-Dal Pont osteotomy, and GTP10, Puricelli osteotomy, both simulating a 10-mm mandibular advancement, allowing for measuring the area of overlap between bone segments. With the geometric changes promoted by the osteotomy, boundary conditions of displacement and force were applied to a CAD software based on finite element analysis (FEA), allowing for quantitative and comparative analysis of the stress and vertical displacement of the mandible, mechanical measurements that may be associated with strength and stiffness.

RESULTS

A 17.48% higher stress was observed in the GTP10 group than in GTOD10. However, the region of highest stress in GTP10 was found in a part of the bone that was still intact and far from the area of fragility caused by lateral vertical osteotomy. In contrast, in GTOD10, the region with high stress was in a less resistant bone region. The GTP10 group showed a 28.73% lower displacement than GTOD10. The area of overlap between the proximal and distal segments of the mandible was 33.13% larger in the GTP10 than in the GTOD10 group.

CONCLUSION

The PMSSO method, performed in large mandibular advancements, keeps the point of highest stress away from the mandibular fragility zone. Considering the same amount of advancement, it also promotes less displacement and larger areas of bone overlap.

CLINICAL RELEVANCE

The results suggest that PMSSO, applied in large mandibular advancement, presents greater postoperative stability.

摘要

背景

使用双侧矢状劈开截骨术（BSSO）进行下颌骨重新定位的手术治疗有利于发展出能够实现充分修复和稳定性的技术。在 Puricelli 的下颌矢状劈开截骨术（PMSSO）方案中，垂直侧方切开骨切开术位于下第一磨牙和第二前磨牙之间的根尖间空间。

目的

本计算机模拟研究旨在探讨 PMSSO 的力学稳定性，并将其与经典的 Obwegeser-Dal Pont 技术用于下颌前突进行比较。

材料和方法

使用计算机辅助设计（CAD）软件在虚拟环境中创建下颌骨的计算几何模型。在模拟了推进术后，建立了两个测试组：GTOD10，Obwegeser-Dal Pont 截骨术，和 GTP10，Puricelli 截骨术，都模拟了 10mm 的下颌骨前突，允许测量骨段之间的重叠区域。利用截骨术引起的几何变化，在基于有限元分析（FEA）的 CAD 软件上施加位移和力的边界条件，允许对下颌骨的应力和垂直位移进行定量和比较分析，这些力学测量可能与强度和刚度相关。

结果

与 GTOD10 相比，GTP10 组的应力高 17.48%。然而，在 GTP10 中，高应力区域位于仍然完整的骨的一部分，远离侧向垂直骨切开术引起的脆弱区域。相比之下，在 GTOD10 中，高应力区域位于骨的抗性较低的区域。GTP10 组的位移比 GTOD10 组低 28.73%。与 GTOD10 组相比，GTP10 组下颌骨近远端骨段的重叠面积大 33.13%。

结论

在大的下颌骨前突中进行 PMSSO 方法可使高应力点远离下颌骨脆弱区域。在相同的前突量下，它还可减少位移并增加更大的骨重叠区域。

临床意义

结果表明，在大的下颌骨前突中应用 PMSSO 具有更高的术后稳定性。

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下颌骨矢状劈开截骨术推进术（Obwegeser-Dal Pont 和 Puricelli 技术）稳定性的三维有限元生物力学评估

Biomechanical evaluation of stability after mandibular sagittal split osteotomy for advancement by Obwegeser-Dal Pont and Puricelli techniques using three-dimensional finite elements.

机构信息

出版信息

BACKGROUND

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSION

CLINICAL RELEVANCE

背景

目的

材料和方法

结果

结论

临床意义

相似文献

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用中文搜PubMed

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