Development of novel biomaterials for bone regeneration is based on the sufficient bone-bonding ability,bioactivity and biocompatibility.In this study,novel flexible poly(butylene succinate)/polydimethysiloxane-modifi...Development of novel biomaterials for bone regeneration is based on the sufficient bone-bonding ability,bioactivity and biocompatibility.In this study,novel flexible poly(butylene succinate)/polydimethysiloxane-modified bioactive glass/nano-hydroxyapatite(PBSu/PDMS-BG/nHA)hybrid bioceramic with various nHA concentration on the in vitro bone-like hydroxyapatite(HA)formation,biomineralization activity and osteoblast cell biocompatibility were investigated.The rapid precipitation of HA on the hybrid bioceramic surfaces was found after being immersed in simulated body fluid(SBF)for seven days.Results show that the amount of HA deposition increased with the increase of nHA concentration.The optimized PBSu/PDMS-BG/nHA hybrid bioceramic exhibited good flexibility,high biomineralization activity and good osteoblast cell biocompatibility.展开更多
基金This work was supported by the Natural Science Basic Research Plan in Shaanxi Province of China(Program No.2019JM-520)by the Special Natural Science Foundation of Science and Technology Bureau of Xi’an City(2017CGWL23,2017CGWL26,2017CGWL27,2017CGWL28)The SEM work was done at International Center for Dielectric Research,Xi’an Jiaotong University.
文摘Development of novel biomaterials for bone regeneration is based on the sufficient bone-bonding ability,bioactivity and biocompatibility.In this study,novel flexible poly(butylene succinate)/polydimethysiloxane-modified bioactive glass/nano-hydroxyapatite(PBSu/PDMS-BG/nHA)hybrid bioceramic with various nHA concentration on the in vitro bone-like hydroxyapatite(HA)formation,biomineralization activity and osteoblast cell biocompatibility were investigated.The rapid precipitation of HA on the hybrid bioceramic surfaces was found after being immersed in simulated body fluid(SBF)for seven days.Results show that the amount of HA deposition increased with the increase of nHA concentration.The optimized PBSu/PDMS-BG/nHA hybrid bioceramic exhibited good flexibility,high biomineralization activity and good osteoblast cell biocompatibility.
