Journal article
Modal analysis of nanoindentation data, confirming that reduced bone turnover may cause increased tissue mineralization/elasticity
MI Pastrama, R Blanchard, JG Clement, P Pivonka, C Hellmich
Journal of the Mechanical Behavior of Biomedical Materials | ELSEVIER | Published : 2018
Abstract
It is widely believed that the activities of bone cells at the tissue scale not only govern the size of the vascular pore spaces (and hence, the amount of bone tissue available for actually carrying the loads), but also the characteristics of the extracellular bone matrix itself. In this context, increased mechanical stimulation (in mediolateral regions of human femora, as compared to anteroposterior regions) may lead to increased bone turnover, lower bone matrix mineralization, and therefore lower tissue modulus. On the other hand, resorption-only processes (in endosteal versus periosteal regions) may have the opposite effect. A modal analysis of nanoindentation data obtained on femurs from..
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Awarded by Canadian Institutes of Health Research
Funding Acknowledgements
MIP acknowledges a travel stipend of TU Wien for a research stay at the University of Melbourne. The ongoing cooperation between TU Wien and the University of Melbourne was facilitated through COST action MP 1005, NAMABIO. MIP and CH acknowledge financial support through the project ERC-StG-2010 MICROBONE, #257032. RB, PP and JGC acknowledge the financial support of the Regional Partnership Program of the Canadian Institutes of Health Research (CIHR) (#384234).