Characterization of the mechanical properties of the mouse Achilles tendon enthesis by microindentation. Effects of unloading and subsequent reloading

IF 2.1 Q3 ENDOCRINOLOGY & METABOLISM

Bone Reports Pub Date : 2024-01-04 DOI:10.1016/j.bonr.2024.101734

Claire Camy , Tilman Grünewald , Edouard Lamy , Flavy Roseren , Mathieu Caumes , Théo Fovet , Thomas Brioche , Cecile Genovesio , Angèle Chopard , Martine Pithioux , Sandrine Roffino

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引用次数: 0

Abstract

The fibrocartilaginous tendon enthesis, i.e. the site where a tendon is attached to bone through a fibrocartilaginous tissue, is considered as a functionally graded interface. However, at local scale, a very limited number of studies have characterized micromechanical properties of this transitional tissue. The first goal of this work was to characterize the micromechanical properties of the mineralized part of the healthy Achilles tendon enthesis (ATE) through microindentation testing and to assess the degree of mineralization and of carbonation of mineral crystals by Raman spectroscopy. Since little is known about enthesis biological plasticity, our second objective was to examine the effects of unloading and reloading, using a mouse hindlimb-unloading model, on both the micromechanical properties and the mineral phase of the ATE. Elastic modulus, hardness, degree of mineralization, and degree of carbonation were assessed after 14 days of hindlimb suspension and again after a subsequent 6 days of reloading. The elastic modulus gradually increased along the mineralized part of the ATE from the tidemark to the subchondral bone, with the same trend being found for hardness. Whereas the degree of carbonation did not differ according to zone of measurement, the degree of mineralization increased by >70 % from tidemark to subchondral bone. Thus, the gradient in micromechanical properties is in part explained by a mineralization gradient. A 14-day unloading period did not appear to affect the gradient of micromechanical properties of the ATE, nor the degree of mineralization or carbonation. However, contrary to a short period of unloading, early return to normal mechanical load reduced the micromechanical properties gradient, regardless of carbonate-to-phosphate ratios, likely due to the more homogeneous degree of mineralization. These findings provide valuable data not only for tissue bioengineering, but also for musculoskeletal clinical studies and microgravity studies focusing on long-term space travel by astronauts.

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用微型压痕法测定小鼠跟腱内膜的机械特性。卸载和随后重新加载的影响

纤维软骨肌腱连接处，即肌腱通过纤维软骨组织与骨骼连接的部位，被认为是一个功能分级界面。然而，在局部范围内，对这种过渡组织的微观机械特性进行表征的研究非常有限。这项工作的首要目标是通过微压痕测试鉴定健康跟腱内膜（ATE）矿化部分的微机械特性，并通过拉曼光谱评估矿化程度和矿物晶体的碳化程度。由于对肌腱内膜的生物可塑性知之甚少，我们的第二个目标是利用小鼠后肢卸载模型，研究卸载和再卸载对肌腱内膜的微机械性能和矿物相的影响。在小鼠后肢悬浮 14 天后，对其弹性模量、硬度、矿化度和碳化程度进行了评估，并在随后的 6 天重新加载后再次进行了评估。弹性模量沿着 ATE 的矿化部分从胫骨标记到软骨下骨逐渐增加，硬度也有同样的趋势。不同测量区域的碳化程度没有差异，而从胫骨痕到软骨下骨，矿化程度增加了70%。因此，微观力学性能的梯度在一定程度上可以用矿化梯度来解释。14 天的卸载期似乎不会影响 ATE 的微观力学性能梯度，也不会影响矿化或碳化的程度。然而，与短时间的卸载相反，无论碳酸盐与磷酸盐的比率如何，早期恢复正常的机械负荷都会降低微观机械特性梯度，这可能是由于矿化程度更加均匀所致。这些发现不仅为组织生物工程提供了有价值的数据，也为肌肉骨骼临床研究和关注宇航员长期太空旅行的微重力研究提供了有价值的数据。

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

Bone Reports Medicine-Orthopedics and Sports Medicine

CiteScore

4.30

自引率

4.00%

发文量

444

审稿时长

57 days

期刊介绍： Bone Reports is an interdisciplinary forum for the rapid publication of Original Research Articles and Case Reports across basic, translational and clinical aspects of bone and mineral metabolism. The journal publishes papers that are scientifically sound, with the peer review process focused principally on verifying sound methodologies, and correct data analysis and interpretation. We welcome studies either replicating or failing to replicate a previous study, and null findings. We fulfil a critical and current need to enhance research by publishing reproducibility studies and null findings.