雄性小鼠的胫骨机械适应性模块化并在衰老过程中保持不变。

Q2 Medicine

Journal of Bone Metabolism Pub Date : 2025-05-01 Epub Date: 2025-05-31 DOI:10.11005/jbm.24.817

Roberto Lopes de Souza, Samuel Monzem, Andrew Anthony Pitsillides

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引用次数: 0

摘要

背景：小鼠胫骨是研究机械适应性反应的重要骨骼。然而，对这些反应的年龄相关变化的研究并不能完全解释与年龄相关的性别特异性骨结构变化。在这里，我们从男性受试者中获取数据，以评估负载引起的骨骼反应是否模块化和年龄相关。方法：对幼年（12周龄）、成年（22周龄）和老年（18月龄）C57Bl/6雄性小鼠胫骨进行预校准右肢（左，对照组）加载2周。年轻和成熟小鼠在3个位置测量皮质骨形成，老年小鼠在单个位置评估新骨形成。微计算机断层扫描用于测量小梁的变化。结果：我们发现负载增加了幼鼠胫骨所有位置的皮质形成，除了最远端位置外，成年小鼠的所有位置都增加了皮质形成。有趣的是，老年男性负重胫骨的总皮质形成也显著增加。在任何年龄，加载都不能改变小梁质量/结构。结论：我们得出的结论是，负荷诱导的皮质反应部分保留，而在所有年龄段的男性中，小梁骨似乎对负荷具有抵抗力。这些数据表明，骨室间机械适应的模块化模式与年龄相关的骨骼脆弱的出现相一致。

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Tibial Mechanoadaptation in Male Mice is Modularised and Retained in Aging.

Background: The murine tibia is a remarkable bone in which to study mechanoadaptive responses. Studies into age-related shifts in these responses do not, however, fully explain sex-specific bone architectural changes related to age. Here, we generate data from male subjects to evaluate whether load-induced skeletal responses are modularised and age-related.

Methods: Tibiae in young (12-week-old), mature (22-week-old), and aged (18-month-old) C57Bl/6 male mice were subjected to pre-calibrated right limb (left, control) loading for 2 weeks. Cortical bone formation was measured in young and mature mice at 3 positions, and new bone formation was evaluated in aged mice at a single location. Micro-computed tomography scans were used to measure trabecular changes.

Results: We found that loading increased cortical formation at all tibial positions in young, and all except the most distal position in mature mice. Intriguingly, total cortical formation was also significantly greater in loaded tibiae in aged males. Loading failed to modify trabecular mass/architecture at any age.

Conclusions: We conclude that load-induced cortical responses are partially retained, whereas trabecular bone appears resistant to loading in males of all ages. These data indicate modular patterns of mechanoadaptation across bone compartments that align with the emergence of age-related skeletal frailty.

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来源期刊

Journal of Bone Metabolism Medicine-Endocrinology, Diabetes and Metabolism

CiteScore

3.70

自引率

0.00%

发文量