使用定制距下窦植入物对成人获得性柔性扁平足畸形进行距下关节制动的有限元分析

Finite element analysis of subtalar joint arthroereisis on adult-acquired flexible flatfoot deformity using customised sinus tarsi implant.

作者信息

Wong Duo Wai-Chi, Wang Yan, Niu Wenxin, Zhang Ming

机构信息

Department of Biomedical Engineering, Faculty of Engineering, The Hong Kong Polytechnic University, Hong Kong, China.

The Hong Kong Polytechnic University Shenzhen Research Institute, Shenzhen, China.

出版信息

J Orthop Translat. 2020 Mar 5;27:139-145. doi: 10.1016/j.jot.2020.02.004. eCollection 2021 Mar.

DOI:10.1016/j.jot.2020.02.004

PMID:33981572

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8071640/

Abstract

BACKGROUND

Subtalar arthroereisis may cause sinus tarsi pain complications. In this study, we aimed to introduce a customised implant that facilitated treatment effect and less impingement. The biomechanical outcome between the intact and implant conditions was compared using finite element analysis.

METHODS

A female patient with flatfoot (age: 36 years, height: 156 cm, body mass: 51 kg) was recruited as the model patient. The customised implant was designed from the extracted geometry. Boundary and loading conditions were assumed from the data of a normal participant. Four gait instants, including the ground reaction force first peak (25% stance), valley (45%), initial push-off (60%) and second peak (75%) were analyzed.

RESULTS

The navicular height was elevated by 4.2% at 25% stance, whereas the strain of the spring, plantar cuneonavicular and plantar cuboideonavicular ligaments were reduced. The talonavicular joint force decreased and the calcaneocuboid joint increased by half and 67%, respectively, representing a lateralised load pathway. There was a stress concentration at the sulcus tali reaching 15.29 MPa.

CONCLUSION

Subtalar arthroereisis using a customised implant may produce some positive treatment effects in terms of navicular height elevation, ligament strain relief and lateralised joint loading pathway. Although the concentrated stress at the sulcus tali did not exceed the threshold of bone breakdown, we could not rule out the potential of vascular disturbance owing to the remarkable elevation of stress. Future study may enlarge the contact area of the bone-implant interface by considering customisation based on the dynamic change of the sinus tarsi during walking gait.

THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE

Geometry mismatch of prefabricated implants could be the reason for complications. With the advancement of 3D printing, customising implant becomes possible and may improve treatment outcome. This study implemented a theoretical model approach to explore its potential under a simulation of walking.

摘要

背景

距下关节制动术可能会导致跗骨窦疼痛并发症。在本研究中，我们旨在引入一种定制植入物，以提高治疗效果并减少撞击。使用有限元分析比较完整状态和植入状态下的生物力学结果。

方法

招募一名扁平足女性患者（年龄：36岁，身高：156厘米，体重：51千克）作为模型患者。根据提取的几何形状设计定制植入物。根据正常参与者的数据假设边界和加载条件。分析了四个步态瞬间，包括地面反作用力第一峰值（站立25%）、谷值（45%）、初始蹬离（60%）和第二峰值（75%）。

结果

在站立25%时，舟骨高度升高了4.2%，而弹簧韧带、足底楔舟韧带和足底骰舟韧带的应变降低。距舟关节力减小，跟骰关节力分别增加了一半和67%，代表了一种侧向负荷路径。距骨沟处存在应力集中，达到15.29兆帕。

结论

使用定制植入物的距下关节制动术在升高舟骨高度、减轻韧带应变和侧向关节负荷路径方面可能会产生一些积极的治疗效果。尽管距骨沟处的集中应力未超过骨破坏阈值，但由于应力显著升高，我们不能排除血管干扰的可能性。未来的研究可以通过考虑基于步行步态中跗骨窦动态变化的定制来扩大骨-植入物界面的接触面积。

本文的转化潜力

预制植入物的几何形状不匹配可能是并发症的原因。随着3D打印技术的进步，定制植入物成为可能，并可能改善治疗效果。本研究采用理论模型方法在步行模拟下探索其潜力。

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使用定制距下窦植入物对成人获得性柔性扁平足畸形进行距下关节制动的有限元分析

Finite element analysis of subtalar joint arthroereisis on adult-acquired flexible flatfoot deformity using customised sinus tarsi implant.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE

背景

方法

结果

结论

本文的转化潜力

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