An inventive, cellulose nano crystal (CNC) and isolated soya flour (SPI) laden brushite-based injectable bone substitute (IBS) material has been developed in the present research. The purpose of the study was to discover the physical, mechanical, in-vitro biological, and in-vivo bone forming ability of the prepared IBS. The incomparable abilities of CNC together with SPI resulted in enhanced biocompatibility, mechanical strength, and biodegradability, which together with its exclusive properties, sort it ideal for bone restoration. The CNC/SPI laden composites showed suitable mechanical strength of ~10.5 MPa for BM23 composite. The in- vitro cytocompatibility of the prepared samples were evaluated by osteoblast type MC3T3-E1 cells via MTT assay. Protein absorption and mineralization behavior of BRCNC2.0 was around (1.7 and 2.3)-fold higher than that of BR, respectively. In vivo performance was also found appreciable with ~(31.33 ± 2.04) % BV/TV. Incorporation of SPI resulted in enhanced bone formation at the central zone of the defect, while unmodified samples resulted in bone formation only at the peripheral zone. The findings of the current study proposed that CNC/SPI laden, brushite based injectable bone substitute might be proficient for bone regeneration ability.
Keywords: Bone regeneration; Cellulose nano crystal; Soya protein isolate; β–TCP.
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