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Advances in Applied Ceramics
Structural, Functional and Bioceramics
Volume 110, 2011 - Issue 7
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Original Article

Development of biphasic hydroxyapatite/dicalcium phosphate dihydrate (DCPD) bone graft using polyurethane foam template: in vitro and in vivo study

D Bizari Biomaterial GroupFaculty of Biomedical Engineering (Center of Excellence), Amirkabir University of Technology, PO Box15875-4413, Tehran, Iran
,
F Moztarzadeh Biomaterial GroupFaculty of Biomedical Engineering (Center of Excellence), Amirkabir University of Technology, PO Box15875-4413, Tehran, IranCorrespondence[email protected]
,
M Rabiee Biomaterial GroupFaculty of Biomedical Engineering (Center of Excellence), Amirkabir University of Technology, PO Box15875-4413, Tehran, Iran
,
M Tahriri Biomaterial GroupFaculty of Biomedical Engineering (Center of Excellence), Amirkabir University of Technology, PO Box15875-4413, Tehran, Iran
,
F Banafatizadeh Biomaterial GroupFaculty of Biomedical Engineering (Center of Excellence), Amirkabir University of Technology, PO Box15875-4413, Tehran, Iran
,
A Ansari Biomaterial GroupFaculty of Biomedical Engineering (Center of Excellence), Amirkabir University of Technology, PO Box15875-4413, Tehran, Iran
&
K Khoshroo Dental Materials GroupSchool of Clinical Dentistry, Tehran University of Medical Sciences, Tehran, Iran
 show all
Pages 417-425 | Received 04 Jul 2011, Accepted 05 Sep 2011, Published online: 22 Nov 2013
 
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Abstract

Abstract

In this research, we characterise a new porous calcium phosphate composite composed of hydroxyapatite (HAp) and dicalcium phosphate dihydrate (DCPD) prepared by foam casting method using polyurethane foam, designed for osteoconductive and osteoinductive scaffolds. According to the obtained results, the values of elastic modulus, compressive strength and density of the samples reduced with increasing percentage of DCPD phase. The mechanical properties of the prepared samples were near the natural compact bone. After in vitro examination and confirming the bone-like apatite ability of the prepared composites, in vivo examination was employed, and for this purpose, a rabbit model was developed. New bones formed on the outside surface and on the macropore walls of the samples, as osteoids and osteoclasts, were evident 2 months post-operatively. Considering these properties, the prepared composite scaffolds made from HAp and DCPD could be considered as highly bioactive and potential bone tissue engineering implants.

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