自愈水凝胶
再生医学
结冷胶
组织工程
生物材料
生物相容性
纳米技术
黄原胶
化学
多糖
粘附
脚手架
仿生学
高分子科学
材料科学
生物医学工程
生物化学
工程类
细胞
有机化学
流变学
复合材料
食品科学
作者
Jian Yao Ng,Sybil Obuobi,Mei Ling Chua,Chi Zhang,Shiqi Hong,Yogesh Kumar,Rajeev Gokhale,Pui Lai Rachel Ee
标识
DOI:10.1016/j.carbpol.2020.116345
摘要
Hydrogels as artificial biomaterial scaffolds offer a much favoured 3D microenvironment for tissue engineering and regenerative medicine (TERM). Towards biomimicry of the native ECM, polysaccharides from Nature have been proposed as ideal surrogates given their biocompatibility. In particular, derivatives from microbial sources have emerged as economical and sustainable biomaterials due to their fast and high yielding production procedures. Despite these merits, microbial polysaccharides do not interact biologically with human tissues, a critical limitation hampering their translation into paradigmatic scaffolds for in vitro 3D cell culture. To overcome this, chemical and biological functionalization of polysaccharide scaffolds have been explored extensively. This review outlines the most recent strategies in the preparation of biofunctionalized gellan gum, xanthan gum and dextran hydrogels fabricated exclusively via material blending. Using inorganic or organic materials, we discuss the impact of these approaches on cell adhesion, proliferation and viability of anchorage-dependent cells for various TERM applications.’
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