Biomechanical analysis and comparison between ‘Zeta’ miniplate design and conventional miniplate system for fixation of fracture segments in transition zone of parasymphysis body region of mandible – an in vitro study

IF 1.7 4区 医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE British Journal of Oral & Maxillofacial Surgery Pub Date : 2024-06-01 DOI:10.1016/j.bjoms.2024.01.008
Manish Kumar , Jitender Kumar Aurora , K.N. Dubey , Parul Tandon , Preeti Sharma
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Abstract

The parasymphysis area of the mandible is highly dynamic because it is subjected to both occlusal and muscular forces. As a result, the fractures in this transition zone have a special pattern, posing a challenge for surgeons whether to use one miniplate versus two miniplates, as per Champy's recommendations. The commonest complication resulting to treat this area is mental nerve paraesthesia due to the dissection and stretching of the nerve. Hence, an in vitro research study of a newly designed ‘Zeta’ miniplate is performed, to evaluate the biomechanical behaviour using finite element (FE) analysis and biomechanical analysis along with a comparison study with the conventional miniplate configurations. The results showed that the Zeta miniplate produces the lowest stresses 17.511 MPa and the least total structural deformation of 0.0011 mm after applying the maximum occlusal bite force. On application of torsional load, total structural deformation was 0.0004 mm and von Mises (VM) stress value was 0.24 MPa which was lowest when compared with the two miniplate system. Hence, the newly developed Zeta miniplate is superior in terms of stability. Another benefit of its design is that it helps in preventing mental nerve paraesthesia and tooth root damage while fixing and stabilising the fractured bony segments.

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用于固定下颌骨干骺端过渡区骨折段的 "Zeta "微型钢板设计与传统微型钢板系统的生物力学分析与比较 - 体外研究
下颌骨的副干骺端受咬合力和肌肉力的双重作用,因此具有很强的动态性。因此,该过渡区的骨折具有特殊的模式,这就给外科医生带来了挑战,究竟是按照 Champy 的建议使用一个小钢板还是两个小钢板。治疗该区域最常见的并发症是由于解剖和拉伸神经导致的精神神经麻痹。因此,我们对新设计的 "Zeta "微型骨板进行了体外研究,使用有限元(FE)分析和生物力学分析评估其生物力学行为,并与传统的微型骨板配置进行比较研究。结果表明,"Zeta "小板在施加最大咬合力后产生的应力最小,为 17.511 兆帕,总结构变形最小,为 0.0011 毫米。在施加扭转载荷时,总结构变形为 0.0004 毫米,von Mises(VM)应力值为 0.24 兆帕,与两种微型板系统相比最低。因此,新开发的 Zeta 微型板在稳定性方面更胜一筹。其设计的另一个优点是,在固定和稳定骨性骨折节段的同时,有助于防止精神神经麻痹和牙根损伤。
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来源期刊
CiteScore
3.60
自引率
16.70%
发文量
256
审稿时长
6 months
期刊介绍: Journal of the British Association of Oral and Maxillofacial Surgeons: • Leading articles on all aspects of surgery in the oro-facial and head and neck region • One of the largest circulations of any international journal in this field • Dedicated to enhancing surgical expertise.
期刊最新文献
Editorial Board Training groups / Instructions to Authors Comment on: Risk prediction of complicated course in patients undergoing major head and neck surgery with free flap reconstruction. Extreme and remarkable adaptations of oral cancer survivors in Sri Lanka. Outcomes of incidental pulmonary nodules detected in oral and oropharyngeal cancer patients.
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