4.6 Article

Importance of individual rods and plates in the assessment of bone quality and their contribution to bone stiffness

期刊

JOURNAL OF BONE AND MINERAL RESEARCH
卷 21, 期 4, 页码 586-595

出版社

WILEY
DOI: 10.1359/JBMR.060102

关键词

local morphometry; Young's modulus; finite element method; bone quality; trabecular bone; trabecular plates; trabecullar rods; vertebrae

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Local morphometry based on the assessment of individual rods and plates was applied to 42 human vertebral trabecular bone samples. Results showed that multiple linear regression models based on local morphometry as a measure for bone microstructure helped improving our understanding of the role of local structural changes in the determination of bone stiffness as assessed from direct and computational biomechanics. Introduction: In a recent study, we proposed a method for local morphometry of trabecular bone, i.e., morphometry as applied to individual rods and plates. In this study, we used this method to study the relative importance of local morphometry in the assessment of bone architecture and its relative contribution to the stiffness of human vertebral bone. Materials and Methods: We extracted 42 human trabecular bone autopsies from nine intact spinal columns. The cylindrical samples were imaged with mu CT to assess bone microstructure. From these images, global and local morphometric indices were derived and related to Young's modulus as assessed by experimental uniaxial compression testing (E-meas) and computational finite element analysis (E-FE). Results: We found the best single predictor for Young's modulus to be apparent bone volume density (BV/TV), which explained 89% of the variance in E-FE when fitted with a power law. A multiple linear regression model combining mean trabecular spacing (Tb.Sp), mean slenderness of the rods (), and the relative amount of rod volume to total bone volume (Ro.BV/BV) was able to explain 90% of the variance in EFE. This model could not be improved by adding BV/TV as an independent variable. Furthermore, we found that mean trabecular thickness of the rods was significantly related to E-FE (r(2) = 0.42), whereas mean trabecular thickness of plates had no correlation to Young's modulus. Because the globally determined trabecular thickness does not discriminate between rods and plates, this index had only a poor predictive power for E-FE (r(2) = 0.09), showing the importance of local analysis of individual rods and plates. Conclusions: From these results, we conclude that models based on local morphometry help improving our understanding of the relative importance of local structural changes in the determination of the stiffness of bone. Separate analysis of individual rods and plates may help to better predict age and disease-related fractures as well as to shed new light on the effect of pharmaceutical intervention in the prevention of such fractures beyond BMD.

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