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Open Access Research Article

Fabrication of Novel Silk Fibroin - LDHs Composite Arhitectures for Potential Bone Tissue Engineering

Bianca Galateanu, Ionut Cristian Radu, Eugenia Vasile, Ariana Hudita, Mirela Violeta Serban, Marieta Costache, Horia Iovu, Catalin Zaharia
Published 30 Dec 2017
Pages 659–665

Abstract

Nanocomposite materials have attracted a high interest for biomedical applications because their special properties related with structure and composition. In this paper we synthesized novel hydrogel nanocomposite materials special designed for hard tissue engineering. The nanocomposite materials are able to promote hydroxyapatite formation by alternating soaking mineralization demanded for increasing of cells biocompatibility and adhesion.

Keywords: nanocomposite; hydroxyapatite; hydrogel; silk; tissue engineering

How to Cite this Article

Galateanu, B., Radu, I., Vasile, E., Hudita, A., Serban, M., Costache, M., Iovu, H., & Zaharia, C. (2017). Fabrication of Novel Silk Fibroin - LDHs Composite Arhitectures for Potential Bone Tissue Engineering. Materiale Plastice, 54(4), 659–665. https://doi.org/10.37358/MP.17.4.4921
Galateanu B, Radu I, Vasile E, Hudita A, Serban M, Costache M, Iovu H, Zaharia C. Fabrication of Novel Silk Fibroin - LDHs Composite Arhitectures for Potential Bone Tissue Engineering. Materiale Plastice. 2017;54(4):659–665. doi: 10.37358/MP.17.4.4921
B. Galateanu, I. Radu, E. Vasile, A. Hudita, M. Serban, M. Costache, H. Iovu, and C. Zaharia, "Fabrication of Novel Silk Fibroin - LDHs Composite Arhitectures for Potential Bone Tissue Engineering,” Materiale Plastice, vol. 54, no. 4, pp. 659–665, 2017. doi: 10.37358/MP.17.4.4921
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