Increased cancellous bone mass accompanies decreased cortical bone mineral density and higher axial deformation in femurs of leptin-deficient obese mice

IF 3.3 2区医学 Q2 ENGINEERING, BIOMEDICAL

Journal of the Mechanical Behavior of Biomedical Materials Pub Date : 2024-09-18 DOI:10.1016/j.jmbbm.2024.106745

F. Graef , Y. Wei , A. Garbe , R. Seemann , M. Zenzes , S. Tsitsilonis , G.N. Duda , P. Zaslansky

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引用次数: 0

Abstract

Introduction

Leptin is a pleiotropic hormone that regulates food intake and energy homeostasis with enigmatic effects on bone development. It is unclear if leptin promotes or inhibits bone growth. The aim of this study was to characterize the micro-architecture and mechanical competence of femur bones of leptin-deficient mice.

Materials and methods

Right femur bones of 15-week old C57BL/6 (n = 9) and leptin-deficient (ob/ob, n = 9) mice were analyzed. Whole bones were scanned using micro-CT and morphometric parameters of the cortex and trabeculae were assessed. Elastic moduli were determined from microindentations in midshaft cross-sections. Mineral densities were determined using quantitative backscatter scanning electron microscopy. 3D models of the distal femur metaphysis, cleared from trabecular bone, were meshed and used for finite element simulations of axial loading to identify straining differences between ob/ob and C57BL/6 controls.

Results

Compared with C57BL/6 controls, ob/ob mice had significantly shorter bones. ob/ob mice showed significantly increased cancellous bone volume and trabecular thickness. qBEI quantified a ∼7% lower mineral density in ob/ob mice in the distal femur metaphysis. Indentation demonstrated a significantly reduced Young's modulus of 12.14 [9.67, 16.56 IQR] GPa for ob/ob mice compared to 23.12 [20.70, 26.57 IQR] GPa in C57BL/6 mice. FEA revealed greater deformation of cortical bone in ob/ob as compared to C57BL/6 mice.

Conclusion

Leptin deficient ob/ob mice have a softer cortical bone in the distal femur metaphysis but an excessive amount of cancellous bone, possibly as a response to increased deformation of the bones during axial loading. Both FEA and direct X-ray and electron microscopy imaging suggest that the morphology and micro-architecture of ob/ob mice have inferior biomechanical properties suggestive of a reduced mechanical competence.

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瘦素缺陷型肥胖小鼠股骨中松质骨量增加，同时皮质骨矿物质密度降低，轴向变形增大

导言瘦素是一种多效激素，可调节食物摄入量和能量平衡，对骨骼发育具有神秘的影响。目前还不清楚瘦素是促进还是抑制骨骼生长。本研究旨在描述瘦素缺乏小鼠股骨的微观结构和机械能力。材料和方法分析了 15 周大的 C57BL/6（n = 9）和瘦素缺乏（ob/ob，n = 9）小鼠的右股骨。使用显微 CT 扫描整个骨骼，评估皮质和骨小梁的形态参数。根据中轴横截面的微压痕确定弹性模量。使用定量反向散射扫描电子显微镜测定了矿物密度。结果与 C57BL/6 对照组相比，肥胖/肥胖小鼠的骨骼明显较短。肥胖/肥胖小鼠的松质骨体积和骨小梁厚度显著增加。压痕试验显示，肥胖/肥胖小鼠的杨氏模量为12.14 [9.67, 16.56 IQR] GPa，明显低于C57BL/6小鼠的23.12 [20.70, 26.57 IQR] GPa。有限元分析表明，与 C57BL/6 小鼠相比，肥胖/ob 小鼠的皮质骨变形更大。结论瘦素缺乏的肥胖/ob 小鼠股骨远端干骺端皮质骨较软，但松质骨过多，这可能是轴向加载时骨骼变形增加的反应。有限元分析以及直接 X 射线和电子显微镜成像都表明，ob/ob 小鼠的形态和微结构具有较差的生物力学特性，表明其机械能力下降。

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.