Silk fibroin, gelatin, and human placenta extracellular matrix-based composite hydrogels for 3D bioprinting and soft tissue engineering.
Karl Heinrich SchneiderBenjamin J GoldbergOnur HasturkXuan MuMarvin DötzlhoferGabriela EderSophia TheodossiouLuis PichelkastnerPeter RiessSabrina RohringerHerbert KissAndreas H Teuschl-WollerVincent FitzpatrickMarjan EnayatiBruno K PodesserHelga BergmeisterDavid Lee KaplanPublished in: Biomaterials research (2023)
Addition of G-TA improved the mechanical properties of the SGE composite hydrogels and inhibited crystallization and subsequent stiffening of SF for up to one month. SGE hydrogels exhibit improved and tunable biomechanical properties and high bioactivity for encapsulated cells. In addition, its use as a bioink for 3D bioprinting with free reversible embedding of suspended hydrogels (FRESH) has been validated, opening the possibility to fabricate highly complex scaffolds for artificial soft tissue constructs with natural biomechanics in future.