基于有限元法的数字化建模在拇外翻研究中的应用
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黑龙江省自然科学基金项目(H2017027)


Application of Finite Element Method-Based Digital Modeling in the Study of Hallux Valgus
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    摘要:

    随着计算机科学和技术的快速发展,数字医学概念应运而生,数字化技术在骨科的研究和应用日趋普及。 有限元分析是一种强大且高效的模拟真实实验的数值方法,常用于研究医学中涉及的生物力学、生物材料性能以及手术模拟等问题,尤其是近几年在足踝领域的应用也越来越多。 目前,基于足踝有限元模型的生物力学分析已被广泛应用于糖尿病足、足底筋膜疾病、足踝骨折及骨性关节炎等的机制分析、假体设计、手术模拟、鞋和鞋垫设计等方向,极大提高了临床医生对足踝生物力学的认知,为足踝相关疾病的研究与诊断提供新思路。 然而,利用有限元法分析拇外翻畸形的研究相对有限。 本文概述拇外翻及继发的扁平足、跖骨痛等病变的生物力学分析和建模方法,以及该方法在临床实际应用的现状,总结其优缺点并进行展望。

    Abstract:

    With the rapid development of computer science and technology, the concept of digital medicine emerges, and digital technique is increasingly used in the field of orthopedics. Finite element analysis (FEA) is a powerful and highly effective method to simulate real experiments, and it is often employed to study the medical issues of biomechanics, biomaterials, surgery simulation, etc. In particular, the application of FEA in the field of foot and ankle is growing as well. At present, the finite element model-based biomechanical analysis of foot and ankle has been widely used in mechanism analysis of the diabetic foot, plantar fascia diseases, foot and ankle fracture and osteoarthritis, as well as in prosthetic design, surgical simulation, shoe and insole design, etc. which significantly enhances the knowledge of surgeons in the aspect of foot biomechanics, and provides new thoughts to investigate and diagnose the ankle-related diseases. However, FEA studies of hallux valgus are relatively limited. In this paper, the biomechanical analysis and modeling of hallux valgus and secondary flatfoot and metatarsal pain were summarized, including the current situation of FEA method in clinical applications, the advantages and disadvantages, as well as its future prospects.

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陈立翔,娄博,王焕.基于有限元法的数字化建模在拇外翻研究中的应用[J].医用生物力学,2022,37(5):972-971

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  • 收稿日期:2021-07-30
  • 最后修改日期:2021-10-12
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  • 在线发布日期: 2022-10-25
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