2D/3D Quantification of bone morphometric parameter changes using X-ray microtomograpphy with different pixel sizes

In recent years, bone quantification led to a deeper knowledge of the 3D microarchitecture. In this study the bone architecture of rats was investigated based on 2D/3D morphometric analysis using microcomputed tomography, aiming at determining the effect of the image acquisition pixel on the quality...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) England : 1993), 2014-02, Vol.95, p.227-229
Main Authors: Vidal, F., de Assis, J.T., Lopes, R.T., Lima, I.
Format: Article
Language:English
Subjects:
Bone
Bones
Density
Microtomography
Pixels
Porosity
Rats
Three dimensional
Two dimensional
X-ray
X-rays
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Summary:In recent years, bone quantification led to a deeper knowledge of the 3D microarchitecture. In this study the bone architecture of rats was investigated based on 2D/3D morphometric analysis using microcomputed tomography, aiming at determining the effect of the image acquisition pixel on the quality of some 2D/3D morphometric parameters, such as porosity and trabecular density. Six pairs of bone samples were used and the scans were carried out using high microcomputed tomography system, operating at three different pixel sizes of 33.3μm, 15.0μm and 9.5μm. The results showed 2D parameters values lower than those obtained in the 3D analysis, mainly for trabecular density, separation and thickness. ► Bone quantification led to a deeper knowledge of the 3D microarchitecture. ► μCT was used in order to investigate condyles bone in 03 different pixel sizes. ► The results showed 2D parameters values lower than those obtained in the 3D analysis. ► The parameters trabecular density, separation and thickness were the most affected.
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2012.12.032