密实度如何影响长骨的抗压性--对犀牛肱骨的研究。

IF 1.8 3区 医学 Q2 ANATOMY & MORPHOLOGY Journal of Anatomy Pub Date : 2024-10-07 DOI:10.1111/joa.14141
Cyril Etienne, Jérémie Viot, Peter J Watson, Michael J Fagan, Alexandra Houssaye
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引用次数: 0

摘要

骨骼内部结构的功能信号已被广泛研究。人们往往通过观察假定的形态-功能关系来推测孤立的形态-功能关系,但这种推测从未经过真正的检验。事实上,不同的骨骼微观解剖特征是在各种限制因素的作用下共同进化的,而这些限制因素是难以厘清的。本研究首次使用生物力学模型,测试了各种微观解剖参数逐一对骨压缩强度的影响。我们对从白犀牛身上获取的具有不同异质内部结构的肱骨模型进行了有限元分析,并分析了冯米塞斯应力的大小和分布。这些测试验证了之前关于形态-功能关系的假设,即皮质增厚和骨小梁填充髓质区域提供了更大的抗压能力,并强调了增加骨小梁密实度比避免开放髓腔的影响更大。通过估算每个参数和微观解剖特征组合的相对影响,他们还显示了骨骺中骨小梁密实度对抗压的影响更为有限,以及影响程度相反但相似的微观解剖变化可以相互补偿,但两个负面微观解剖变化的影响之和远远超过两个变化各自的影响之和。这些结果有助于更好地理解骨骼的适应性和形态-功能关系,从而可以有把握地对化石标本进行古生物学推断,有助于更好地理解脊椎动物进化史上的骨骼演化。它们还凸显了在骨骼生物力学分析中考虑内部结构的潜力。此外,它们还可用于生物吸入,以设计抗压结构。
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How compactness affects long bone resistance to compression-An investigation into the rhinoceros humerus.

The functional signal of bone internal structure has been widely studied. Isolated form-function relationships have often been assumed from the observation of presumed morphofunctional relationships, but have never been truly tested. Indeed, distinct bone microanatomical feature co-evolve in response to various constraints that are difficult to detangle. This study tested for the first time the impact of various microanatomical parameters taken one by one, plus some in pairs, on bone strength under compression using biomechanical modelling. We carried out finite element analyses on humerus models, obtained from a white rhinoceros, with different heterogeneous internal structures, and analysed the magnitude and distribution of von Mises stresses. These tests validated earlier hypotheses of form-function relationships about the greater resistance to compression provided by the thickening of the cortex and the filling of the medullary area by trabecular bone and highlighted the stronger impact of increasing trabecular bone compactness than of avoiding an open medullary cavity. By making it possible to estimate the relative impact of each parameter and of combinations of microanatomical features, they also showed the more limited impact of the trabecular bone compactness in the epiphyses to resist compression, and the fact that microanatomical changes of opposite but of similar amplitude impact can compensate each other, but that the impact of the sum of two negative microanatomical changes far exceeds the sum of the impacts of each of the two changes taken separately. These results contribute to a better understanding of bone adaptation and form-function relationships so that they later can be used with confidence for palaeobiological inferences on fossil specimens, contributing to a better understanding of skeletal evolution during the evolutionary history of vertebrates. They also highlight the potential of taking internal structure into account in the bone biomechanical analyses. In addition, they can be used in bioinspiration to design resistant structures subjected to compression.

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来源期刊
Journal of Anatomy
Journal of Anatomy 医学-解剖学与形态学
CiteScore
4.80
自引率
8.30%
发文量
183
审稿时长
4-8 weeks
期刊介绍: Journal of Anatomy is an international peer-reviewed journal sponsored by the Anatomical Society. The journal publishes original papers, invited review articles and book reviews. Its main focus is to understand anatomy through an analysis of structure, function, development and evolution. Priority will be given to studies of that clearly articulate their relevance to the anatomical community. Focal areas include: experimental studies, contributions based on molecular and cell biology and on the application of modern imaging techniques and papers with novel methods or synthetic perspective on an anatomical system. Studies that are essentially descriptive anatomy are appropriate only if they communicate clearly a broader functional or evolutionary significance. You must clearly state the broader implications of your work in the abstract. We particularly welcome submissions in the following areas: Cell biology and tissue architecture Comparative functional morphology Developmental biology Evolutionary developmental biology Evolutionary morphology Functional human anatomy Integrative vertebrate paleontology Methodological innovations in anatomical research Musculoskeletal system Neuroanatomy and neurodegeneration Significant advances in anatomical education.
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