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A novel specimen-specific methodology to optimise the alignment of long bones for experimental testing
File | Description | Size | Format | |
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manuscript_alignment_A clean.docx | Accepted version | 31.83 kB | Microsoft Word | View/Open |
table1.docx | Supporting information | 11.87 kB | Microsoft Word | View/Open |
table2.docx | Supporting information | 14.22 kB | Microsoft Word | View/Open |
Figures.pdf | Supporting Information | 5.8 MB | Adobe PDF | View/Open |
Title: | A novel specimen-specific methodology to optimise the alignment of long bones for experimental testing |
Authors: | Cheong, VS Bull, AMJ |
Item Type: | Journal Article |
Abstract: | The choice of coordinate system and alignment of bone will affect the quantification of mechanical properties obtained during in-vitro biomechanical testing. Where these are used in predictive models, such as finite element analysis, the fidelic description of these properties is paramount. Currently in bending and torsional tests, bones are aligned on a pre-defined fixed span based on the reference system marked out. However, large inter-specimen differences have been reported. This suggests a need for the development of a specimen-specific alignment system for use in experimental work. Eleven ovine tibiae were used in this study and three-dimensional surface meshes were constructed from micro-Computed Tomography scan images. A novel, semi-automated algorithm was developed and applied to the surface meshes to align the whole bone based on its calculated principal directions. Thereafter, the code isolates the optimised location and length of each bone for experimental testing. This resulted in a lowering of the second moment of area about the chosen bending axis in the central region. More importantly, the optimisation method decreases the irregularity of the shape of the cross-sectional slices as the unbiased estimate of the population coefficient of variation of the second moment of area decreased from a range of (0.210-0.435) to (0.145-0.317) in the longitudinal direction, indicating a minimisation of the product moment, which causes eccentric loading. Thus, this methodology serves as an important pre-step to align the bone for mechanical tests or simulation work, is optimised for each specimen, ensures repeatability, and is general enough to be applied to any long bone. |
Issue Date: | 19-Oct-2015 |
Date of Acceptance: | 12-Oct-2015 |
URI: | http://hdl.handle.net/10044/1/26938 |
DOI: | 10.1016/j.jbiomech.2015.10.011 |
ISSN: | 1873-2380 |
Publisher: | Elsevier |
Start Page: | 4317 |
End Page: | 4321 |
Journal / Book Title: | Journal of Biomechanics |
Volume: | 48 |
Issue: | 16 |
Copyright Statement: | © 2015, Elsevier. Licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International http://creativecommons.org/licenses/by-nc-nd/4.0/ |
Publication Status: | Accepted |
Appears in Collections: | Bioengineering Faculty of Engineering |