1. Laser‐made 3D Auxetic Metamaterial Scaffolds for Tissue Engineering Applications.
- Author
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Flamourakis, George, Spanos, Ioannis, Vangelatos, Zacharias, Manganas, Phanee, Papadimitriou, Lina, Grigoropoulos, Costas, Ranella, Anthi, and Farsari, Maria
- Subjects
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POISSON'S ratio , *TISSUE scaffolds , *TISSUE engineering , *REGENERATIVE medicine , *CELL morphology , *AUXETIC materials - Abstract
Exploiting the unique properties of three‐dimensional (3D) auxetic scaffolds in tissue engineering and regenerative medicine applications provides new impetus to these fields. Herein, the results on the fabrication and characterization of 3D auxetic scaffolds for tissue engineering applications are presented. The scaffolds are based on the well‐known re‐entrant hexagonal geometry (bowtie) and they are fabricated by multiphoton lithography using the organic−inorganic photopolymer SZ2080. In situ scanning electron microscopy–microindentations and nanoindention experiments are employed to characterize the photocurable resin SZ2080 and the scaffolds fabricated with it. Despite SZ2080 being a stiff material with a positive Poisson's ratio, the scaffolds exhibit a negative Poisson's ratio and high elasticity due to their architecture. Next, mouse fibroblasts are used to seed the scaffolds, showing that they can readily penetrate them and proliferate in them, adapting the scaffold shape to suit the cells' requirements. Moreover, the scaffold architecture provides the cells with a predilection to specific directions, an imperative parameter for regenerative medicine in many cell‐based applications. This research paves the way for the utility of 3D auxetic metamaterials as the next‐generation adaptable scaffolds for tissue engineering. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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