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Bioactivity and mineralization of natural hydroxyapatite from cuttlefish bone and Bioglass co-sintered bioceramics. | LitMetric

Bioactivity and mineralization of natural hydroxyapatite from cuttlefish bone and Bioglass co-sintered bioceramics.

J Tissue Eng Regen Med

BIOtech Research Center and European Institute of Excellence on Tissue Engineering and Regenerative Medicine, Department of Industrial Engineering, University of Trento, Trento, Italy.

Published: February 2018

AI Article Synopsis

  • This study explores the development of bioactive hydroxyapatite (HAP)-based bioceramics using cuttlefish bone powders mixed with Bioglass-45S5 to improve their mechanical properties and bioactivity.
  • The researchers used various characterization techniques, including Fourier transform infrared spectroscopy and X-ray diffraction, to analyze the structural changes and new phases formed after synthesizing the composites.
  • In cell culture tests, scaffolds made from the cuttlefish bone powders demonstrated superior cell proliferation and activity compared to commercial synthetic HAP, with Bioglass-enhanced ceramics showing even better results after 7 days of incubation.

Article Abstract

In this study, bioactive hydroxyapatite (HAP)-based bioceramics starting from cuttlefish bone powders have been prepared and characterized. In particular, fragmented cuttlefish bone was co-sintered with 30 wt% of Bioglass -45S5 to synthesize HAP-based powders with enhanced mechanical properties and bioactivity. Commercial synthetic HAP was treated following the same procedure and used as a reference. The structure and composition of the bioceramics formulations were characterized using Fourier transform infrared spectroscopy, X-ray diffraction and scanning electron microscopy. After the thermal treatment of cuttlefish bone powder added with 30 wt% Bioglass, new phases with compositions of sodium calcium phosphate [Na Ca (PO ) ], β-tricalcium phosphate [Ca (PO )] and amorphous silica were detected. In vitro cell culture studies were performed by evaluating proliferation, metabolic activity and differentiation of human osteoblast-like cells (MG63). Scaffolds made with cuttlefish bone powder exhibited increased apatite deposition, alkaline phosphatase activity and cell proliferation compared with commercial synthetic HAP. In addition, the ceramic compositions obtained after the combination with Bioglass further enhanced the metabolic activity of MG63 cell and promoted the formation of a well-developed apatite layer after 7 days of incubation in Dulbecco's modified Eagle's medium.

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Source
http://dx.doi.org/10.1002/term.2448DOI Listing

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