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Diez-Escudero, A., Espanol, M., Beats, S., Ginebra, M. P., (2017). In vitro degradation of calcium phosphates: Effect of multiscale porosity, textural properties and composition Acta Biomaterialia In Press, Corrected Proof

The capacity of calcium phosphates to be replaced by bone is tightly linked to their resorbability. However, the relative importance of some textural parameters on their degradation behavior is still unclear. The present study aims to quantify the effect of composition, specific surface area (SSA), and porosity at various length scales (nano-, micro- and macroporosity) on the in vitro degradation of different calcium phosphates. Degradation studies were performed in an acidic medium to mimic the osteoclastic environment. Small degradations were found in samples with interconnected nano- and micropores with sizes below 3 µm although they were highly porous (35–65%), with maximum weight loss of 8 wt%. Biomimetic calcium deficient hydroxyapatite, with high SSA and low crystallinity, presented the highest degradation rates exceeding even the more soluble

Keywords: Calcium phosphates, Degradation, Porosity, Textural properties


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