3D bioprintable methacrylated carrageenan/sodium alginate dual network hydrogel for vascular tissue engineering scaffolding

Zhou Anduo; Hu Yasong; Chen ChongshuaiMao HeyiWang LeiZhang ShanfengHuang Xia

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3D bioprintable methacrylated carrageenan/sodium alginate dual network hydrogel for vascular tissue engineering scaffolding

机译：3D bioprintable methacrylated carrageenan/sodium alginate dual network hydrogel for vascular tissue engineering scaffolding

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摘要

3D printing technology has significant advantages in the processing field of vascular tissue engineering. We have developed KCMA/SA hydrogels based on methacrylated carrageenan (KCMA) and sodium alginate (SA), which have low viscosity and shear thinning properties and can be used for 3D printing. The physicochemical double cross-linked network structure leads to good mechanical properties. The composite hydrogels maintain the liquid crystallinity of KC, which causes the HUVECs to align. The KCMA/SA gel filaments printed by the 3D extrusion printing system formed a connected microstructure. These characteristics all indicate the potential of KCMA/SAs in the field of tubular tissue regeneration.

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来源
《International Journal of Polymeric Materials》 |2023年第9期|550-560|共11页
作者
Zhou Anduo; Hu Yasong; Chen ChongshuaiMao HeyiWang LeiZhang ShanfengHuang Xia;
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作者单位

Zhengzhou Univ;

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原文格式 PDF
正文语种英语
中图分类高分子化合物产品;
关键词
Cell compatibility; 3D bioprinting; liquid crystal dual network bio-ink; printability; vascular tissue engineering scaffolds; LIQUID-CRYSTALS; BLENDS;

3D bioprintable methacrylated carrageenan/sodium alginate dual network hydrogel for vascular tissue engineering scaffolding

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