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    Preparation and characterization of novel injectable selfª²setting bone substitute containing of rhBMPª²2 loaded microspheres

    FEI Zhengª²qi, HU Yunª²yu, WU Daoª²cheng, et al.

    Department of Orthopaedics, Xijing Hospital, 4th Military Medical University(FMMU), Xi'an, 710032

    Abstract£º[Objective]To develop a novel injectable in situ settting bone graft substitute with higher degradation rate, more release of rhBMPª²2/CPC.[Method]rhBMPª²2 loaded PLGA micropheres, fabricated by using a doubleª²emulsion, solventª²extraction [(waterª²inª²oil) ª²inª²water] technique, was incorporated in rhBMPª²2ª²/CPC during setting. The processing parameters and fundamental properties included microstructure, setting time, compressive strength, and the in vitro degradation of the composite which was indicated by concentration of Ca and P in the degradation liquid were investigated. Meanwhile, as a delivery system of rhBMPª²2, the release kinetics and the bioactivity of the released rhBMPª²2 for the composite were determined in vitro. [Result]The diameter of PLGA microsphere was 253¦Ìm¡À64¦Ìm, load density of rhBMPª²2 was 0.52%¡À0.14%. Compared with that of rhBMPª²2ª²/CPC, the setting time increased slightly,the compressive strength decreased significantly,but still stronger than that of the composite when microspheres dissolved. The concentrations of Ca and P in the degradation liquid of composites were higher than that of rhBMPª²2ª²/CPC at all time points. All implants showed a sustaining release for 28 days, the composite released a greater amount of rhBMPª²2 than CPC delivery system. Alkaline phosphatase (ALP) ,one of the markers of the osteoblast phenotype, was dramatically stimulated by rhBMPª²2.[Conclusion] The in vitro degradation and rhBMPª²2 release can be upgraded by intermixing of the biodegradable rhBMPª²2 loaded PLGA microspheres with CPC during setting, therefore, the combination of rhBMPª²2 loaded PLGA microspheres and CPC forms a promising synthetic bone graft. ......