Origami meets electrospinning: a new strategy for 3D nanofiber scaffolds

Inspired by the constitution of things in the natural world, three-dimensional(3 D) nanofiber scaffold/cells complex was constructed via the combination of electrospinning technology and origami techniques. The nanofiber boxes prepared by origami provided a limited space for the layer-by-layer nanofiber films, and the human fetal osteoblasts(h FOBs) seeded on the both sides of the nanofiber films were expected to facilitate the bonding of the adjacent nanofiber films through the secretion of extracellular matrix. Specifically, the h FOBs presented 3 D distribution in the nanofiber scaffold, and they can stretch across the gaps between the adjacent nanofiber films, forming the cell layers and filling the whole 3 D nanofiber scaffold. Eventually, a 3 D block composed of electrospun nanofiber scaffold and cells was obtained, which possesses potential applications in bone tissue engineering. Interestingly, we also created 3 D nanofiber structures that range from simple forms to intricate architectures via origami, indicating that the combination of electrospinning technology and origami techniques is a feasible method for the 3 D construction of tissue engineering scaffolds.