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Hydrogels are good candidate materials for cell delivery scaffolds because they can mimic the physical, chemical, electrical and biological properties of most of the native tissues. In this study, composite biosynthetic hydrogels were produced by combining the bio-functionality of silk fibroin (SF) with the structural versatility of polyethylene-glycol-diacrylated (PEGDa). The formation of a photopolymerizable...
The present study is focused on the study of novel 3D hydrogel scaffolds for regenerative medicine. We are studying how shape, geometry, stiffness and in general the mechanical properties of the three dimensional scaffolds affect the mechanism of cellular differentiation. The physical features of the scaffolds, as the biochemical factors, determinate the fate of the steam cell. We fabricated innovative...
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