Title of article
Biomaterial porosity determined by fractal dimensions, succolarity and lacunarity on microcomputed tomographic images
Author/Authors
NʹDiaye، نويسنده , , Mambaye and Degeratu، نويسنده , , Cristinel and Bouler، نويسنده , , Jean-Michel and Chappard، نويسنده , , Daniel، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
6
From page
2025
To page
2030
Abstract
Porous structures are becoming more and more important in biology and material science because they help in reducing the density of the grafted material. For biomaterials, porosity also increases the accessibility of cells and vessels inside the grafted area. However, descriptors of porosity are scanty. We have used a series of biomaterials with different types of porosity (created by various porogens: fibers, beads …). Blocks were studied by microcomputed tomography for the measurement of 3D porosity. 2D sections were re-sliced to analyze the microarchitecture of the pores and were transferred to image analysis programs: star volumes, interconnectivity index, Minkowski–Bouligand and Kolmogorov fractal dimensions were determined. Lacunarity and succolarity, two recently described fractal dimensions, were also computed. These parameters provided a precise description of porosity and poresʹ characteristics. Non-linear relationships were found between several descriptors e.g. succolarity and star volume of the material. A linear correlation was found between lacunarity and succolarity. These techniques appear suitable in the study of biomaterials usable as bone substitutes.
Keywords
connectivity , Lacunarity , porosity , Fractal dimension , Succolarity
Journal title
Materials Science and Engineering C
Serial Year
2013
Journal title
Materials Science and Engineering C
Record number
2102952
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