小梁骨的生物力学特性和微观结构参数与二维投影图像的随机测量值相关。
Biomechanical properties and microarchitecture parameters of trabecular bone are correlated with stochastic measures of 2D projection images.
机构信息
Department of Health and Kinesiology, The University of Texas at Tyler, Tyler, TX 75799, USA.
出版信息
Bone. 2013 Oct;56(2):327-36. doi: 10.1016/j.bone.2013.05.023. Epub 2013 Jun 10.
Abstract
It is well known that loss of bone mass, quantified by areal bone mineral density (aBMD) using DXA, is associated with the increasing risk of bone fractures. However, bone mineral density alone cannot fully explain changes in fracture risks. On top of bone mass, bone architecture has been identified as another key contributor to fracture risk. In this study, we used a novel stochastic approach to assess the distribution of aBMD from 2D projection images of Micro-CT scans of trabecular bone specimens at a resolution comparable to DXA images. Sill variance, a stochastic measure of distribution of aBMD, had significant relationships with microarchitecture parameters of trabecular bone, including bone volume fraction, bone surface-to-volume ratio, trabecular thickness, trabecular number, trabecular separation and anisotropy. Accordingly, it showed significantly positive correlations with strength and elastic modulus of trabecular bone. Moreover, a combination of aBMD and sill variance derived from the 2D projection images (R2=0.85) predicted bone strength better than using aBMD alone (R2=0.63). Thus, it would be promising to extend the stochastic approach to routine DXA scans to assess the distribution of aBMD, offering a more clinically significant technique for predicting risks of bone fragility fractures.
摘要
众所周知,使用 DXA 测量的骨矿物质密度(aBMD)的骨量损失与骨折风险的增加有关。然而,骨矿物质密度本身并不能完全解释骨折风险的变化。除了骨量之外,骨结构已被确定为骨折风险的另一个关键因素。在这项研究中,我们使用了一种新颖的随机方法来评估微 CT 扫描的小梁骨标本的 2D 投影图像中 aBMD 的分布,其分辨率可与 DXA 图像相媲美。 sill 方差是一种随机测量 aBMD 分布的方法,它与小梁骨的微观结构参数有显著的关系,包括骨体积分数、骨表面体积比、小梁厚度、小梁数量、小梁分离度和各向异性。因此,它与小梁骨的强度和弹性模量呈显著正相关。此外,来自 2D 投影图像的 aBMD 和 sill 方差的组合(R2=0.85)比单独使用 aBMD (R2=0.63)更好地预测了骨强度。因此,将随机方法扩展到常规 DXA 扫描以评估 aBMD 的分布是很有前途的,这为预测脆性骨折风险提供了一种更具临床意义的技术。
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