Department of Biotechnology, The Catholic University of Korea, 43 Jibong-ro Wonmi-gu, Bucheon-si, Gyeonggi-do 420-743, Republic of Korea.
Colloids Surf B Biointerfaces. 2013 Dec 1;112:368-73. doi: 10.1016/j.colsurfb.2013.08.023. Epub 2013 Aug 28.
Uniform tricalcium phosphate (TCP) porous beads with micro and macro pore sizes were fabricated using a simple fluidic device. For micro-porous TCP beads, an aqueous gelatin mixture containing TCP powder was introduced as the discontinuous phase into the fluidic device, where a toluene phase served as the continuous phase. The resulting aqueous TCP droplets were instantly frozen at -20°C and freeze-dried, followed by calcination at 1200°C. An oil-in-water-in-oil (O/W/O) emulsion templating method was employed to fabricate macro-porous TCP beads. An oil-in-water (O/W) emulsion was introduced into the fluidic device as the discontinuous phase with all other experimental conditions the same as for the micro-porous TCP beads. Uniform macro-porous TCP beads with a highly porous structure were finally obtained after freeze-drying and calcination. Large pore size and good interconnectivity of the macro-porous TCP beads were confirmed by scanning electron microscopy and porosimetry. In addition, penetration of host tissue into the macro-pores of the TCP beads was demonstrated by subcutaneously implanting the two types of porous TCP beads into mice and histologically analyzing stained sections at 1-4 weeks post implantation. The macro-porous TCP beads with a highly open porous structure could potentially be used as an injectable material for bone tissue engineering.
采用简单的流体制备了具有微-大孔尺寸的均一磷酸三钙(TCP)多孔微球。对于微孔 TCP 微球,将含有 TCP 粉末的水凝胶混合物作为不连续相引入流体制备装置中,其中甲苯相作为连续相。所得的水相 TCP 液滴在-20°C 下立即冷冻并冻干,然后在 1200°C 下煅烧。采用油包水包油(O/W/O)乳液模板法制备大孔 TCP 微球。将油包水(O/W)乳液作为不连续相引入流体制备装置中,其他实验条件与微孔 TCP 微球相同。经过冻干和煅烧后,最终获得了具有高度多孔结构的均匀大孔 TCP 微球。扫描电子显微镜和孔隙率分析证实了大孔 TCP 微球具有大孔径和良好的连通性。此外,通过将这两种多孔 TCP 微球皮下植入小鼠,并在植入后 1-4 周对染色切片进行组织学分析,证明了宿主组织可以渗透到 TCP 微球的大孔中。具有高度开放多孔结构的大孔 TCP 微球可能可用作骨组织工程的可注射材料。
