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通过多孔弹性超声评估废用性骨质流失过程中小梁骨弹性常数和各向异性模式的变化。

Changes of elastic constants and anisotropy patterns in trabecular bone during disuse-induced bone loss assessed by poroelastic ultrasound.

作者信息

Cardoso Luis, Schaffler Mitchell B

出版信息

J Biomech Eng. 2015 Jan;137(1):0110081-9. doi: 10.1115/1.4029179.

Abstract

Currently, the approach most widely used to examine bone loss is the measurement of bone mineral density (BMD) using dual X-ray absorptiometry (DXA). However, bone loss due to immobilization creates changes in bone microarchitecture, which in turn are related to changes in bone mechanical function and competence to resist fracture.Unfortunately, the relationship between microarchitecture and mechanical function within the framework of immobilization and antiresorptive therapy has not being fully investigated. The goal of the present study was to investigate the structure–function relationship in trabecular bone in the real-world situations of a rapidly evolving osteoporosis(disuse), both with and without antiresorptive treatment. We evaluated the structure–function relationship in trabecular bone after bone loss (disuse-induced osteoporosis)and bisphosphonate treatment (antiresorptive therapy using risedronate) in canine trabecular bone using lCT and ultrasound wave propagation. Microstructure values determined from lCT images were used into the anisotropic poroelastic model of wave propagation in order to compute the apparent elastic constants (EC) and elastic anisotropy pattern of bone. Immobilization resulted in a significant reduction in trabecular thickness (Tb.Th) and bone volume fraction (BV/TV), while risedronate treatment combined with immobilization exhibited a lesser reduction in Tb.Th and BV/TV, suggesting that risedronate treatment decelerates bone loss, but it was unable to fully stop it. Risedronate treatment also increased the tissue mineral density (TMD), which when combined with the decrease in Tb.Th and BV/TV may explain the lack of significant differences invBMD in both immobilization and risedronate treated groups. Interestingly, changes inapparent EC were much stronger in the superior–inferior (SI) direction than in the medial–lateral (ML) and anterior–posterior (AP) anatomical directions, producing changes in elastic anisotropy patterns. When data were pooled together, vBMD was able to explain 58% of ultrasound measurements variability, a poroelastic wave propagation analytical model (i.e., BMD modulated by fabric directionality) was able to predict 81%of experimental wave velocity variability, and also explained 91% of apparent EC and changes in elastic anisotropy patterns. Overall, measurements of vBMD were unable to distinguish changes in apparent EC due to immobilization or risedronate treatment.However, anisotropic poroelastic ultrasound (PEUS) wave propagation was able to distinguish functional changes in apparent EC and elastic anisotropy patterns due to immobilization and antiresorptive therapy, providing an enhanced discrimination of anisotropic bone loss and the structure–function relationship in immobilized and risedronate-treated bone, beyond vBMD.

摘要

目前,用于检测骨质流失的最广泛方法是使用双能X线吸收法(DXA)测量骨矿物质密度(BMD)。然而,因固定导致的骨质流失会引起骨微结构的变化,而这又与骨力学功能及抗骨折能力的变化相关。不幸的是,在固定和抗吸收治疗框架内,微结构与力学功能之间的关系尚未得到充分研究。本研究的目的是在快速发展的骨质疏松症(废用性)的实际情况下,研究小梁骨的结构 - 功能关系,无论是否进行抗吸收治疗。我们使用lCT和超声波传播评估了犬小梁骨骨质流失(废用性骨质疏松症)和双膦酸盐治疗(使用利塞膦酸盐的抗吸收治疗)后小梁骨的结构 - 功能关系。从lCT图像确定的微结构值被用于波传播的各向异性孔隙弹性模型,以计算骨的表观弹性常数(EC)和弹性各向异性模式。固定导致小梁厚度(Tb.Th)和骨体积分数(BV/TV)显著降低,而利塞膦酸盐治疗与固定相结合时,Tb.Th和BV/TV的降低幅度较小,这表明利塞膦酸盐治疗可减缓骨质流失,但无法完全阻止。利塞膦酸盐治疗还增加了组织矿物质密度(TMD),这与Tb.Th和BV/TV的降低相结合,可能解释了固定组和利塞膦酸盐治疗组中BMD无显著差异的原因。有趣的是,表观EC在上下(SI)方向的变化比内外(ML)和前后(AP)解剖方向上的变化要强得多,从而产生了弹性各向异性模式的变化。当数据汇总在一起时,vBMD能够解释58%的超声测量变异性,一个孔隙弹性波传播分析模型(即由结构方向性调制的BMD)能够预测81%的实验波速变异性,并且还解释了91%的表观EC和弹性各向异性模式的变化。总体而言,vBMD测量无法区分由于固定或利塞膦酸盐治疗引起的表观EC变化。然而,各向异性孔隙弹性超声(PEUS)波传播能够区分由于固定和抗吸收治疗引起的表观EC和弹性各向异性模式的功能变化,除了vBMD之外,还能增强对固定和利塞膦酸盐治疗的骨中各向异性骨质流失和结构 - 功能关系的辨别。

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