Biomechanical effects of different miniplate use on bone and miniplate systems in multiple mandible fracture: A finite element study

IF 2.2 3区医学 Q3 CRITICAL CARE MEDICINE Injury-International Journal of the Care of the Injured Pub Date : 2024-10-28 DOI:10.1016/j.injury.2024.111983

Erdinç Sulukan , Zeynep Gümrükçü

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Abstract

Purpose

The aim of this study is to evaluate the biomechanical efficiency of different miniplates in the treatment of multiple mandibula fractures.

Material and Method

Mandible, miniplates, and screws were modeled using the Solid Works v2015 (Dassault Systèmes, France) program, Subsequently two fracture lines were created on the right parasymphysis and angulus mandible. Models were divided into two main groups according to the plates used in the anterior fracture line: group A, 2 piece 4-hole-bar-I plate, and group B, ellipse plate. Each group was divided into five subgroups according to the plates used in the posterior fracture line (I, X, G, 3D, E) and 10 study models were created in total. Under three different biting forces (anterior, right, left), maximum von-Mises stresses seen on miniplates/screws, and Pmax/Pmin stresses seen in the cortically/cancellous bone were analyzed using the Ansys 16.2 software (ANSYS, Inc., USA). Data was visualized using a color distribution scale and interpreted.

Results

The highest von-Mises stress, seen in plates, was found in the I plate (353.82 MPa) at the angulus region of model A1. The highest Pmax and Pmin stresses, revealed in cortical bone, were found respectively in model A1 (181.63 MPa) and model B2 (115.01 MPa). The ideal results on plates were seen in models B3 and B5, in which E plates were used in the parasymphysis and G/E plates were used in the angulus region.

Conclusion

Grid and ellipse plates provide successful results and plate geometry is more critical than number in terms of stress distribution.

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在多发性下颌骨骨折中使用不同微型钢板对骨和微型钢板系统的生物力学影响：有限元研究

材料和方法使用 Solid Works v2015（法国达索系统公司）程序对下颌骨、微型钢板和螺钉进行建模，随后在右侧干骺端旁和下颌角上创建两条骨折线。根据前方骨折线所使用的钢板，模型被分为两大组：A 组，2 块 4 孔棒状钢板；B 组，椭圆钢板。根据后骨折线使用的钢板（I、X、G、3D、E），每组又分为五个子组，共创建了 10 个研究模型。在三种不同的咬合力（前、右、左）下，使用 Ansys 16.2 软件（美国 ANSYS 公司）分析了迷你板/螺钉上的最大 von-Mises 应力和皮质/胶囊骨中的 Pmax/Pmin 应力。结果模型 A1 角区域的 I 号钢板的 von-Mises 应力最大（353.82 兆帕）。皮质骨中显示的最高 Pmax 和 Pmin 应力分别出现在模型 A1（181.63 兆帕）和模型 B2（115.01 兆帕）中。在模型 B3 和 B5 中，骨骺旁使用了 E 型钢板，角区使用了 G/E 型钢板，这两种钢板的效果最为理想。

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来源期刊

Injury-International Journal of the Care of the Injured 医学-急救医学

CiteScore

4.00

自引率

8.00%

发文量

699

审稿时长

96 days

期刊介绍： Injury was founded in 1969 and is an international journal dealing with all aspects of trauma care and accident surgery. Our primary aim is to facilitate the exchange of ideas, techniques and information among all members of the trauma team.