Higher number of pentosidine cross-links induced by ribose does not alter tissue stiffness of cancellous bone
article
The role of mature collagen cross-links, pentosidine (Pen) cross-links in particular, in the micromechanical properties of cancellous bone is unknown. The aim of this study was to examine nonenzymatic glycation effects on tissue stiffness of demineralized and non-demineralized cancellous bone. A total of 60 bone samples were derived from mandibular condyles of six pigs, and assigned to either control or experimental groups. Experimental handling included incubation in phosphate buffered saline alone or with 0.2 M ribose at 37 °C for 15 days and, in some of the samples, subsequent complete demineralization of the sample surface using 8% EDTA. Before and after experimental handling, bone microarchitecture and tissue mineral density were examined by means of microcomputed tomography. After experimental handling, the collagen content and the number of Pen, hydroxylysylpyridinoline (HP), and lysylpyridinoline (LP) cross-links were estimated using HPLC, and tissue stiffness was assessed by means of nanoindentation. Ribose treatment caused an up to 300-fold increase in the number of Pen cross-links compared to nonribose-incubated controls, but did not affect the number of HP and LP cross-links. This increase in the number of Pen cross-links had no influence on tissue stiffness of both demineralized and nondemineralized bone samples. These findings suggest that Pen cross-links do not play a significant role in bone tissue stiffness. © 2014 Elsevier B.V.
Topics
BiomechanicsCancellous boneCollagen cross-linksGlycationNanoindentationBiomechanicsBoneCollagenComputer architectureComputerized tomographyGlycosylationNanoindentationStiffnessBone microarchitectureCancellous boneExperimental groupsGlycationMicrocomputed tomographyMicromechanical propertyNonenzymatic glycationPhosphate-buffered salinesTissue
TNO Identifier
507073
ISSN
09284931
Source
Materials Science and Engineering C, 42, pp. 15-21.
Pages
15-21
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