Deformation of mineral crystals in cortical bone depending on structural anisotropy

Giri Bijay; Tadano Shigeru; Fujisaki Kazuhiro; Sasaki Naoki

Title	en Deformation of mineral crystals in cortical bone depending on structural anisotropy
Creator	en Giri, Bijay en Tadano, Shigeru NRID 1000050175444 en Fujisaki, Kazuhiro NRID 1000090435678 en Sasaki, Naoki
Accessrights	open access
Subject	Other en Mineral strain Other en Structural anisotropy Other en Degree of orientation Other en Crystallites evolution Other en X-ray diffraction NDC 491
Description	Abstract en The deformation mechanism of bone at different hierarchical levels has been of wide interest. The important features of bone, its anisotropy and orientation dependent deformation are equally important, which have also gained a long run discussion. Most of the studies are concentrated on protein-rich collagen fibres and matrix, where different deformation mechanisms at the lower length scales are proposed. But in relation to this, how the mineral particles behave depending on their distribution is yet to be revealed in detail. In the present work, we demonstrate mineral crystals deformation and arrangement characteristics on the basis of experimental outcomes. Using X-ray diffraction procedures, we quantified the mineral strains, degree of orientation of the crystallites and their evolution under different applied step-loads in bovine femoral cortical specimens having different alignment with the femoral axis direction. We provide a direct quantitative comparison of these parameters in the specimens having preferential orientations roughly at 0, 30, 45, 75 and 90 degrees with reference to the loading direction. The mineral strains in the compliant specimens, i.e. 0 and 30 degrees oriented specimens were observed to differ with the stiffer specimens, i.e. 75 and 90 degrees oriented specimens, whereas the 45 degrees oriented specimen show almost equal strains at different loads. These were explained by the degree of orientation with reference to the loading direction and the preferential orientation direction of the specimens. On the basis of observed parameters, we describe deformation phenomena of mineral particles to occur ill different stages, which consist of redistribution stage, elastic strain stage and inelastic strain stage. These phenomena are expected to occur at different scales and rates depending on the orientation and distribution of crystals.
Publisher	en Elsevier Inc.
Date	Issued2009-06
Language	eng
Resource Type	journal article
Version Type	AM
Identifier	HDL http://hdl.handle.net/2115/38625
Relation	isVersionOf DOI https://doi.org/10.1016/j.bone.2009.01.394 PMID 19437610
Journal	PISSN 8756-3282 en Bone Volume Number44 Issue Number6 Page Start1111 Page End1120
File	fulltext 44-6_p1111-1120.pdf 1.09 MB (application/pdf) Issued2009-06
Oaidate	2023-07-26