Scaphoid numerical simulation of the critical loading until fracture

IF 3.3 2区医学 Q2 ENGINEERING, BIOMEDICAL Journal of the Mechanical Behavior of Biomedical Materials Pub Date : 2023-10-14 DOI:10.1016/j.jmbbm.2023.106186

Ana B. Maroto , Pedro Navas , Felicia Alfano

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Abstract

The numerical study of the scaphoid fracture, although it is relatively unexplored, can be of great clinical interest since it is highly common and can result in temporary or persistent disability.

In this manuscript, seven combinations of boundary conditions and contacts between adjacent bones, together with four different loads, simulating real hand movements, are assessed.

Three different fracture criteria for bones are employed to study the failure of the scaphoid with the aforementioned combination of interaction conditions. The results offer an interesting view of the accuracy of the possible interaction between adjacent bones. For future calculation, it would be possible to choose a combination of the balance between precision and computational cost savings.

This study provides a comprehensive assessment into the modeling of the scaphoid bone and its interactions with adjacent bones. The findings reveal that various choices of interactions can yield similar results, allowing for flexibility in selecting interaction models based on desired accuracy or computational efficiency. Ultimately, this study establishes a foundational understanding for future research on modeling scaphoid motion.

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直到断裂的临界载荷的Scaphoid数值模拟。

舟状骨骨折的数值研究虽然相对未被探索，但由于其非常常见，可能导致暂时或持续的残疾，因此具有很大的临床意义。在这篇手稿中，评估了边界条件和相邻骨骼之间接触的七种组合，以及模拟真实手部运动的四种不同载荷。采用三种不同的骨骨折标准来研究具有上述相互作用条件组合的舟状骨的失效。研究结果为相邻骨骼之间可能相互作用的准确性提供了一个有趣的视角。对于未来的计算，可以选择精度和计算成本节约之间的平衡。这项研究为舟骨的建模及其与相邻骨骼的相互作用提供了全面的评估。研究结果表明，各种交互选择可以产生类似的结果，从而允许根据所需的准确性或计算效率灵活选择交互模型。最终，这项研究为未来对舟骨运动建模的研究奠定了基础。

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

Journal of the Mechanical Behavior of Biomedical Materials 工程技术-材料科学：生物材料

CiteScore

7.20

自引率

7.70%

发文量

505

审稿时长

46 days

期刊介绍： The Journal of the Mechanical Behavior of Biomedical Materials is concerned with the mechanical deformation, damage and failure under applied forces, of biological material (at the tissue, cellular and molecular levels) and of biomaterials, i.e. those materials which are designed to mimic or replace biological materials. The primary focus of the journal is the synthesis of materials science, biology, and medical and dental science. Reports of fundamental scientific investigations are welcome, as are articles concerned with the practical application of materials in medical devices. Both experimental and theoretical work is of interest; theoretical papers will normally include comparison of predictions with experimental data, though we recognize that this may not always be appropriate. The journal also publishes technical notes concerned with emerging experimental or theoretical techniques, letters to the editor and, by invitation, review articles and papers describing existing techniques for the benefit of an interdisciplinary readership.