Biomechanical evaluation of spiral fracture in human metacarpal using chicken humerus model.

IF 0.3 Q4 SURGERY

Journal of Hand and Microsurgery Pub Date : 2024-08-14 eCollection Date: 2024-12-01 DOI:10.1016/j.jham.2024.100147

LiYu Alyssa Toh, Abby Choke, Youheng Ou Yang, Yoke Rung Wong

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引用次数: 0

Abstract

Introduction: Animal bones have been used as a model to mimic human bones for investigation of fracture patterns and fixation techniques. This study aims to investigate the effects of torsional forces of varying speeds on the spiral fracture in human metacarpal using a chicken humerus model.

Materials and methods: Thirty fresh-frozen chicken humerus bones were dissected and equally divided into three groups. The bones were mounted onto a customized jig and subjected to different torsional loading rate at 22.5°/s, 30°/s and 45°/s, respectively. The fracture pattern, angle and length were analysed.

Results: Our results concurred with other studies that used mature animal long bones which showed no correlation between spiral fracture morphology and torsional rate. We also noticed differences between mature and immature long bones at various torsional speeds.

Conclusion: The chicken humerus model demonstrated a promising alternative to investigate the effect of bone material properties on the spiral fracture pattern. The intent of this study was to expand it as a suitable bone model for resident teaching and research purpose.

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鸡肱骨模型对人掌骨螺旋骨折的生物力学评价。

动物骨骼已被用作模拟人骨的模型，用于骨折模式和固定技术的研究。本研究的目的是利用鸡肱骨模型研究不同速度的扭转力对人掌骨螺旋骨折的影响。材料与方法：取30块新鲜冷冻鸡肱骨，分成3组。骨骼安装在定制的夹具上，分别承受22.5°/s、30°/s和45°/s的扭转加载速率。分析了裂缝的形态、角度和长度。结果：我们的结果与其他使用成熟动物长骨的研究一致，显示螺旋骨折形态与扭转率没有相关性。我们还注意到成熟和未成熟长骨在不同扭转速度下的差异。结论：鸡肱骨模型是研究骨材料性能对螺旋骨折模式影响的理想选择。本研究的目的是将其扩展为适合住院医师教学和研究的骨模型。

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来源期刊

Journal of Hand and Microsurgery SURGERY-

CiteScore

1.00

自引率

25.00%

发文量