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The effect of trabecular micro-architecture on vertebra biomechanics: a finite element investigation

McDonald, Katrina, Pearcy, Mark J., & Adam, Clayton J. (2007) The effect of trabecular micro-architecture on vertebra biomechanics: a finite element investigation. In Brebbia, C. A. (Ed.) 7th International conference on Modelling in Medicine and Biology (Biomed 2007), 10 - 12 September, Wessex Institute of Technology, New Forest, United Kingdom.

Abstract

700,000 vertebral fractures occur each year in the United States alone, 85% of which are associated with osteoporosis. This study presents the development of a microstructural model of an entire lumbar vertebral body to investigate the effects of osteoporotic changes in bone micro-architecture on vertebral biomechanics, specifically, the change in stiffness, stresses and load sharing capacity of the core and cortex. A finite element model of a trabecular microstructure was created using a lattice of 3D beam elements with age representative thickness and separation. The vertebral shell was created around the trabecular microarchitecture using 3D shell elements. Three trabecular microstructures were investigated: (i) age less than 50, (ii) age 50-75 and (iii) age over 75 years. A Young’s modulus of 13GPa and Poisson’s ratio of 0.3 were applied for parent bone material. Two loading cases were investigated; (i) a uniform pressure of 1MPa applied to the upper endplate, and (ii) an applied displacement of -1mm for the entire upper endplate in the vertical direction. Model results showed that, microstructural variations seen with aging decreased predicted vertebral stiffness from 23kN/mm (age <50) to 0.7kN/mm (age >75), increased maximum principal endplate stress from 5.4MPa (age <50) to 73MPa (age >75, for 1MPa applied pressure), and reduced the proportion of total load carried by the trabecular core from 52% (age <50) to 6% (age >75). The model exhibits realistic behaviour compared with experimental studies, and will be used in the future to explore the mechanics of vertebral compression fractures and treatments such as vertebroplasty

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ID Code: 11300
Item Type: Conference Paper
Additional URLs:
Keywords: Vertebra, trabecular microarchitecture, FE modelling, osteoporosis
ISSN: 17433525
Subjects: Australian and New Zealand Standard Research Classification > ENGINEERING (090000) > BIOMEDICAL ENGINEERING (090300) > Biomechanical Engineering (090302)
Divisions: Past > QUT Faculties & Divisions > Faculty of Built Environment and Engineering
Current > Institutes > Institute of Health and Biomedical Innovation
Copyright Owner: Copyright 2007 WIT Press
Copyright Statement: Reproduced in accordance with the copyright policy of the publisher.
Deposited On: 21 Dec 2007
Last Modified: 29 Feb 2012 23:36

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