Abstract

Printing three-dimensional (3D) scaffolds with suitable mechanical cues is an effective strategy for guiding tissue regeneration by inducing cell migration and growth. Nevertheless, many studies considered only one type of cue for 3D tissue engineering scaffold fabrication, such as topological cues, which is insufficient. To realize durotaxis- and topotaxis-orchestrated guidance on cell migration, a 3D printed scaffold/hydrogel composite was fabricated in this study. The porous scaffold provided a topological cue (topotaxis), and the combined hydrogel provided a compliance cue (durotaxis). The results indicated that the thin fibers of the scaffold induced cell migration, and the larger pore size and directed fiber number of the scaffold led to more uniform cell orientation (topotaxis). Furthermore, when collagen was cured to cover the scaffold to result in a compliance change, the cells in the collagen still sensed the scaffold topological cue and migrated along it (durotaxis). Collagen also provides a living space and nutrition for cells, thereby significantly increasing their number. The effects of durotaxis and topotaxis synthesis provide a promising solution for tissue engineering scaffold applications.

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