Bone is the rigid tissue that constitutes the skeleton. The material for bone regeneration has to provide the mechanical stability by maintaining the mechanical loads both in the rest conditions and during the body movements. Bone is dynamic tissue constantly reshaped by the action of cells (osteoblasts and osteoclasts). This activity is normally enough to heal bone injuries; however, in several conditions, when bone is subjected to fatal damages, self-renewal is difficult, if not even impossible, and a medical treatment is required. The transplantation of a biomaterial is one of the common surgical procedures to overcome critical injuries. In this study, we exploited the effect of the use of different sources of demineralized bone powder (DBP) in combination with gellan gum (GG) to form a GG-DBP hydrogel scaffold with the purpose of regenerating the bone tissue. DBP was extracted from the femurs of two typologies of Gallus gallus domesticus (the Yeonsan Ogye, a traditional and rare black chicken from Korea, and the Cornish cross, the most common breeds for industrial meat production) and the Pekin duck. The composite scaffold has been tested both in vitro and in vivo. In vitro studies using rat bone marrow-derived mesenchymal stem cells (rBMSCs) confirmed the cellular suitability of bone-specific gene expression for seeded GG-DBP scaffolds, differentiation capacity, and marked upregulation. The scaffold containing a DBP derived from the Yeonsan Ogye (YO) bone showed higher levels of cell proliferation and osteogenic differentiation in comparison with the scaffold with the DBP obtained from the other studied sources. These results have been related with the higher amount of melanin, studied by fluorescence, of the YO DBP compared to Cornish cross and Pekin duck. Overall, this study clearly shows the use of YO DBP as a promising material in bone tissue regeneration.
Keywords: Gallus gallus var domesticus; bone tissue engineering; demineralized bone powder (DBP); melanin.