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Current Medicinal Chemistry


ISSN (Print): 0929-8673
ISSN (Online): 1875-533X

Assessing Methods for Characterising Local and Global Structural and Biomechanical Properties of the Trabecular Bone Network

Author(s): I. Sidorenko, R. Monetti, J. Bauer, D. Mueller, E. Rummeny, F. Eckstein, M. Matsuura, E.-M. Lochmueller, P. Zysset and C. Raeth

Volume 18 , Issue 22 , 2011

Page: [3402 - 3409] Pages: 8

DOI: 10.2174/092986711796504754

Price: $65


We apply noval techniques, the Scaling Index Method (SIM), which reveals local topology of the structure, and the Minkowski Functionals (MF), which provide four global topological characteristics, to assess strength of the trabecular network of the human bone. We compare capabilities of these methods with the standard analysis, biomechanical Finite Element Method (FEM) and morphological parameters, in prediction of bone strength and fracture risk. Our study is based on a sample of 151 specimens taken from the trabecular part of human thoracic and lumbar vertebrae in vitro, visualised using µ CT imaging (isotropic resolutionµ 26 m) and tested by uniaxial compression. The sample of donors is heterogeneous, consisting of 58 male and 54 female cadavers with a mean age of 80 ± 10 years. To estimate the predictive power of the methods, we correlate texture measures derived from µCT images with the maximum compressive strength (MCS) as obtained in biomechanical tests. A linear regression analysis reveals that the failure load estimated by FEM shows the highest correlation with MCS (Pearson's correlation coefficient r=0.76). None of the methods in current study is superior to the FEM: morphometric parameters give r < 0.5, global topological characteristics show r=0.73 for the first Minkowski Functional MF1, which coincides with bone volume fraction BV/TV and r=0.61 for the second Minkowski functional MF2, which coincides with bone surface BS. Although scaling indices provided by SIM correlate only moderately with MCS (r=0.55), texture measures based on the nonlinear combination of local (SIM) and global (MF) topological characteristics demonstrate high correlation with experimental MCS (r=0.74) and with failure load estimated by FEM (r=0.95). Additional advantage of the proposed texture measures is possibility to reveal the role of the topologically different trabecular structure elements for the bone strength.

Keywords: High-resolution images, trabecular bone microstructure, osteoporosis, bone strength, biomechanical properties, mechanical test, maximum compressive strength, Finite Element Method (FEM), Minkowski Functionals (MF), Scaling Index Method (SIM), morphological parameters, topological properties, regression analysis

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