Recent advances in 3D bioprinting of polysaccharide-based bioinks for fabrication of bioengineered tissues

IF 3.2 3区 工程技术 Q2 CHEMISTRY, PHYSICAL Molecular Systems Design & Engineering Pub Date : 2024-05-16 DOI:10.1039/D4ME00001C
Kasula Nagaraja, Pratik Dhokare, Amitava Bhattacharyya and Insup Noh
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Abstract

Bioink in three-dimensional (3D) bioprinting of biomimetic tissue scaffolds has emerged as a key factor for the success of tissue engineering and regenerative medicine. The bioinks used for extrusion 3D bioprinting have hydrogel matrices with different kinds of polymeric biomaterials such as proteins, peptides, polysaccharides, hydrophilic synthetic polymers, and others. Natural polysaccharides such as alginate, chitosan, and hyaluronic acid have garnered significant attention as bioink materials due to their excellent biocompatibility, extracellular matrix mimetic properties, biodegradability, injectability, bioprintablilty and structural versatility among their many advantages, even though many research groups focus on the study of protein-based bioinks to utilize their high potential of cell adhesiveness. This review encompasses recent advancements of polysaccharide-based hydrogels and bioinks for bioengineered tissue regeneration and reconstruction, especially by focusing on fabrication of multilayered complex structures for biomimetic tissue engineering applications.

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基于多糖的三维生物打印技术在制造生物工程组织方面的最新进展
三维(3D)生物打印仿生组织支架中的生物墨水已成为组织工程和再生医学取得成功的关键因素。用于挤压三维生物打印的生物墨水具有不同种类高分子生物材料的水凝胶基质,如蛋白质、肽、多糖、亲水性合成聚合物等。海藻酸、壳聚糖和透明质酸等天然多糖具有良好的生物相容性、细胞外基质模拟特性、生物降解性、可注射性、生物打印性和结构多样性等诸多优点,因此作为生物墨水材料备受关注。本综述介绍了多糖基水凝胶和生物沉材料在生物工程组织再生和重建方面的最新进展,尤其是多层复杂结构的制造在仿生组织工程中的应用。
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来源期刊
Molecular Systems Design & Engineering
Molecular Systems Design & Engineering Engineering-Biomedical Engineering
CiteScore
6.40
自引率
2.80%
发文量
144
期刊介绍: Molecular Systems Design & Engineering provides a hub for cutting-edge research into how understanding of molecular properties, behaviour and interactions can be used to design and assemble better materials, systems, and processes to achieve specific functions. These may have applications of technological significance and help address global challenges.
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Back cover Back cover Dual responsive fluorescence switching of organohydrogel towards base/acid† Back cover Graph-based networks for accurate prediction of ground and excited state molecular properties from minimal features†
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