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Influence of 3D QCT scan protocol on the QCT-based finite element models of human vertebral cancellous bone
Publikationstyp
Journal Article
Date Issued
2014-08
Sprache
English
Journal
Volume
36
Issue
8
Start Page
1069
End Page
1073
Citation
Medical Engineering and Physics 36 (8): 1069-1073 (2014)
Publisher DOI
Scopus ID
Publisher
Elsevier
Quantitative computed tomography (QCT)-based finite element (FE) models provide a better prediction of vertebral strength than dual-energy X-ray absorptiometry. However, FE models are often created from datasets acquired at different CT scan protocols and it is unclear whether this influences the FE results. The aim of this paper was to investigate whether there was an effect of the CT scan protocol on the FE models. 12 human thoracolumbar vertebrae were scanned on top of a calcium hydroxyapatite calibration phantom using a standard QCT scan protocol - 120. kV, 100. mAs (PA); and a low dose protocol - 90. kV, 150. mAs (PB). FE cancellous models with cuboid volume of interest and inhomogeneous nonlinear bone properties were created. Axial compression was simulated. The apparent BMD, modulus and yield strength showed significant differences between the two scan protocols. The apparent BMD, the modulus and yield strength between the two groups were highly linearly correlated. This paper indicated that the FE models created from image datasets acquired at different X-ray tube voltage settings would give significantly different results and this effect could be possibly corrected using a linear correction approach.
Subjects
Bone mineral density
Finite element model
Material mapping
QCT
Scan protocol
Spine
DDC Class
610: Medicine, Health
620: Engineering