合成材料老化与应用
閤成材料老化與應用
합성재료노화여응용
SYNTHETIC MATERIALS AGING AND APPLICATION
2014年
1期
1-3
,共3页
朱继翔%陈晓明%彭晔%阳范文%田秀梅%何福坡
硃繼翔%陳曉明%彭曄%暘範文%田秀梅%何福坡
주계상%진효명%팽엽%양범문%전수매%하복파
明胶%PLGA%多孔支架
明膠%PLGA%多孔支架
명효%PLGA%다공지가
gelatin%PLGA%porous scaffold
利用固液相分离与冷冻干燥技术分别制备明胶与PLGA组织工程支架。两种支架微观呈互相连通的多孔结构,孔隙率相似。 PLGA支架的压缩模量达到3.22MPa,约为明胶支架的500倍。明胶支架在8周内完全降解,而PLGA支架在8周的降解时间内,质量损失在5%以下。
利用固液相分離與冷凍榦燥技術分彆製備明膠與PLGA組織工程支架。兩種支架微觀呈互相連通的多孔結構,孔隙率相似。 PLGA支架的壓縮模量達到3.22MPa,約為明膠支架的500倍。明膠支架在8週內完全降解,而PLGA支架在8週的降解時間內,質量損失在5%以下。
이용고액상분리여냉동간조기술분별제비명효여PLGA조직공정지가。량충지가미관정호상련통적다공결구,공극솔상사。 PLGA지가적압축모량체도3.22MPa,약위명효지가적500배。명효지가재8주내완전강해,이PLGA지가재8주적강해시간내,질량손실재5%이하。
Gelatin scaffold and PLGA scaffold were fabricated via solid liquid phase separation technique and freeze drying method.These scaffolds displayed interconnected porous microstructures and the porosities were nearly the same.The compressive modulus of PLGA scaffold was 3.22MPa which was about 500 times more than that of gelatin scaffold.In vitro degradation test demonstrated that gelatin scaffold degraded completely while PLGA scaf-fold only lost less than 5%of its original mass during 8 weeks.
