- 作者:Eva Filová ; a ; b ; evafil@biomed.cas.cz ; Michala Rampichová ; a ; c ; Andrej Litvineca ; d ; Milan Dr?í ; ke ; Andrea Mí ; ?ková ; a ; c ; Matej Buzgoa ; c ; Eva Ko&scaron ; ?á ; ková ; f ; Lenka Martinová ; f ; Du&scaron ; an Usvaldg ; Eva Prosecká ; a ; c ; Ji?í ; Uhlí ; kh ; Jan Motlí ; kg ; Lud¨§k Vajnerh ; Ev?en Amlera ; c ; i
- 关键词:Cartilage ; Fibrin ; Nanofibers ; Growth factors ; Polyvinyl alcohol ; Hyaluronic acid
- 刊名:International Journal of Pharmaceutics
- 出版年:2013
- 出版时间:15 April, 2013
- 年:2013
- 卷:447
- 期:1-2
- 页码:139-149
- 全文大小:1416 K
A novel drug delivery system was developed on the basis of the intake effect of liposomes encapsulated in PVA nanofibers. Time-controlled release of insulin and bFGF improved MSC viability in vitro. Nanofibers functionalized with liposomes also improved the mechanical characteristics of the composite gel scaffold.
In addition, time-controlled release of insulin and bFGF stimulated MSC recruitment from bone marrow in vivo. Cell-free composite scaffolds containing PVA nanofibers enriched with liposomes, bFGF, and insulin were implanted into seven osteochondral defects of miniature pigs. Control defects were left untreated. After 12 weeks, the composite scaffold had enhanced osteochondral regeneration towards hyaline cartilage and/or fibrocartilage compared with untreated defects that were filled predominantly with fibrous tissue. The cell-free composite scaffold containing PVA nanofibers, liposomes and growth factors enhanced migration of the cells into the defect, and their differentiation into chondrocytes; the scaffold was able to enhance the regeneration of osteochondral defects in minipigs.