Molecularly Imprinted Macroporous Hydrogel Promotes Bone Regeneration via Osteogenic Induction and Osteoclastic Inhibition

Abstract: Macroporous hydrogels offer physical supportive spaces and bio‐instructive environment for the seeded cells, where cell‐scaffold interactions directly influence cell fates and subsequently affect tissue regeneration post‐implantation. Effectively modifying bioactive motifs at the inner pore surface provides appropriate niches for cell‐scaffold interactions. A molecular imprinting method and sacrificial templates are introduced to prepare inner pore surface modification in the macroporous hydrogels. In detail, … Show more