In-silico study of type 'B' condylar head fractures and evaluating the influence of two positional screw distance in two-screw osteosynthesis construct.

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Anik Banerjee, Masud Rana, Arindam Chakraborty, Jayanta Kumar Biswas, Amit Roy Chowdhury
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引用次数: 0

Abstract

Clinical fixation screws are common in clinical practices to fix mandibular condyle fractures. Evidence suggests significance of 'working length' that is, distance between proximal and distal fixation screws in proximity to the fracture in orthopaedic implant design. In pursuit of stable implant-bone construct, this study aims to investigate the biomechanical performance of each configuration considered in the study and provide an optimal working length between the screws for clinical reference. Finite element models of virtually designed broken condyle as type 'B' were simulated and analysed in ANSYS Workbench. Screws are implanted according to previous literature at five varied distances 'd' maintaining five different ratios with the fracture length 'D'. Based on a literature review, boundary conditions, muscle traction forces and non-linear contacts were assigned to obtain precise results. Each case is considered an individual configuration and von Mises distribution, microstrain in bone, screw-bone interface micromotion and fracture dislocation were evaluated for all these configurations. Stress-shielding phenomenon is observed for maximum von Mises stresses in bone. Microstrain concentration was significant in cancellous bone in the vicinity of the screw around the fracture line. Configurations were compared based on the stress-strain along with micromotion to support the required amount of osseointegration between implant and bone. Presented data from all five conditions supported the assumption that under physiological loading conditions, the D3 configuration provided stability for fracture healing. Further research on screw shapes, diameters and material properties, or investigating the direction of forces within the screws could provide further insight into this topic.

“B”型髁突头骨折的计算机模拟研究,并评估双螺钉接骨结构中两个位置螺钉距离的影响。
临床固定螺钉在临床实践中很常见,用于固定髁突骨折。有证据表明,“工作长度”(即骨折附近近端和远端固定螺钉之间的距离)在骨科植入物设计中具有重要意义。为了寻求稳定的植入骨结构,本研究旨在研究研究中考虑的每种配置的生物力学性能,并为临床参考提供螺钉之间的最佳工作长度。在ANSYS工作台上对虚拟设计的“B”型骨折髁的有限元模型进行了模拟和分析。根据先前的文献,在五个不同的距离“d”处植入螺钉,与骨折长度“d”保持五个不同比例。在文献综述的基础上,对边界条件、肌肉牵引力和非线性接触进行了分配,以获得精确的结果。每种情况都被视为一种单独的配置,并对所有这些配置的von Mises分布、骨内微应变、螺钉-骨界面微运动和骨折脱位进行了评估。在骨中观察到最大von Mises应力的应力屏蔽现象。骨折线周围螺钉附近的松质骨中的微应变集中非常显著。基于应力-应变和微运动对配置进行比较,以支持植入物和骨之间所需的骨整合量。来自所有五种条件的数据支持了这样一种假设,即在生理负荷条件下,D3配置为骨折愈合提供了稳定性。对螺钉形状、直径和材料性能的进一步研究,或研究螺钉内的力的方向,可以进一步深入了解这一主题。
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
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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