Novel hydroxyethyl chitosan/cellulose scaffolds with bubble-like porous structure for bone tissue engineering.

Hydrogels fabricated from natural polysaccharides may serve as ideal scaffolds for tissue engineering because of their similarity to the extracellular matrices. In this study, novel hydrogel scaffolds with bubble-like porous structure were prepared from hydroxyethyl chitosan (HECS) and cellulose (CEL) by a combination of chemical crosslinking, particle-leaching using silicon dioxide particles as porogen and freeze-drying method. The morphology, compression stress-strain curves, wettability, and swelling and rheological behaviors of the HECS/CEL scaffolds were characterized by SEM, mechanical test, contact angle measurement and rheometer. HECS/CEL scaffolds had good comprehensive performances and could reach equilibrium swelling state in water within 20s. The results from in vitro biocompatibility evaluated using SEM, live/dead cell viability and MTT assays demonstrated that the HECS/CEL scaffolds could well support the attachment, spreading and proliferation of osteoblastic MC3T3-E1 cells and showed good biocompatibility. Therefore, the novel HECS/CEL scaffolds may be promising for bone tissue engineering applications.