Ellipsoidal porous patch with anisotropic cell inducing ability for inhibiting skin scar formation

Scar formation has always been a difficult point to overcome in the field of clinical wound care.Here,we present an ellipsoidal porous patch with cell inducing ability for inhibiting scar formation.The patch was prepared by stretching a poly(lactic-co-glycolic acid)(PLGA)inverse opal film at the glass transition temperature to form a neatly arranged three-dimensional ellipsoidal porous structure.Such anisotropic structure showed dramatic capability in directing cell growth and arrangement by reconstructing cell morphology.Besides,the prolifera-tion of cells growing on the stretched patch was significantly suppressed without cell cytotoxicity.In addition,benefitting from the abundant and connected nanopores,the patch could be imparted with a potent ability to promote cell migration by encapsulating fibroblast growth factor 2(FGF2)via the second filling of functional gelatin methacryloyl(GelMA)hydrogel into its scaffold.In a typical scar model,we have demonstrated that the resultant patch performed well in inhibiting scar formation characterized by inhibiting the excessive proliferation of fibroblasts,decreasing the deposition of type I collagen,reducing the scar index and achieved complete tissue reconstruction.These results indicate the anisotropic inverse opal patch has an excellent application prospect in inhibiting scar formation during wound repair.