Chitosan-based 3D-printed scaffolds for bone tissue engineering.

L Roshini Yadav, S Viji Chandran, K Lavanya, N Selvamurugan

International journal of biological macromolecules 2021 Jul 31

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Despite the spontaneous regenerative properties of autologous bone grafts, this technique remains dilatory and restricted to fractures and injuries. Conventional grafting strategies used to treat bone tissue damage have several limitations. This highlights the need for novel approaches to overcome the persisting challenges. Tissue-like constructs that can mimic natural bone structurally and functionally represent a promising strategy. Bone tissue engineering (BTE) is an approach used to develop bioengineered bone with subtle architecture. BTE utilizes biomaterials to accommodate cells and deliver signaling molecules required for bone rejuvenation. Among the various techniques available for scaffold creation, 3D-printing technology is considered to be a superior technique as it enables the design of functional scaffolds with well-defined customizable properties. Among the biomaterials obtained from natural, synthetic, or ceramic origins, naturally derived chitosan (CS) polymers are promising candidates for fabricating reliable tissue constructs. In this review, the physicochemical-biological properties and applications of CS-based 3D-printed scaffolds and their future perspectives in BTE are summarized. Copyright © 2021 Elsevier B.V. All rights reserved.

Citation

L Roshini Yadav, S Viji Chandran, K Lavanya, N Selvamurugan. Chitosan-based 3D-printed scaffolds for bone tissue engineering. International journal of biological macromolecules. 2021 Jul 31;183:1925-1938