Xiao Xiong, Yang Yuchu, Lai Yushang, Huang Ziwei, Li Chenxi, Yang Shaojie, Niu Chuan, Yang Liping, Feng Li
Division of Vascular Surgery, Department of General Surgery and Regenerative Medicine Research Center, West China Hospital, Sichuan University, Chengdu 610041, People's Republic of China.
Biomacromolecules. 2023 Nov 13;24(11):5414-5427. doi: 10.1021/acs.biomac.3c00887. Epub 2023 Oct 26.
Light-based three-dimensional (3D) bioprinting has been widely studied in tissue engineering. Despite the fact that free-radical chain polymerization-based bioinks like hyaluronic acid methacrylate (HAMA) and gelatin methacryloyl (GelMA) have been extensively explored in 3D bioprinting, the thiol-ene hydrogel system has attracted increasing attention for its ability in building hydrogel scaffolds in an oxygen-tolerant and cell-friendly way. Herein, we report a superfast curing thiol-ene bioink composed of norbornene-modified hyaluronic acid (NorHA) and thiolated gelatin (GelSH) for 3D bioprinting. A new facile approach was first introduced in the synthesis of NorHA, which circumvented the cumbersome steps involved in previous works. Additionally, after mixing NorHA with macro-cross-linker GelSH, the customized NorHA/GelSH bioinks exhibited fascinating superiorities over the gold standard GelMA bioinks, such as an ultrafast curing rate (1-5 s), much lowered photoinitiator concentration (0.03% w/v), and flexible physical performances. Moreover, the NorHA/GelSH hydrogel greatly avoided excess ROS generation, which is important for the survival of the encapsulated cells. Last, compared with the GelMA scaffold, the 3D-printed NorHA/GelSH scaffold not only exhibited excellent cell viability but also guaranteed cell proliferation, revealing its superior bioactivity. In conclusion, the NorHA/GelSH system is a promising candidate for 3D bioprinting and tissue engineering applications.
基于光的三维(3D)生物打印在组织工程领域已得到广泛研究。尽管基于自由基链式聚合的生物墨水,如甲基丙烯酸透明质酸(HAMA)和甲基丙烯酰化明胶(GelMA),在3D生物打印中已被广泛探索,但硫醇-烯水凝胶体系因其能够以耐氧且对细胞友好的方式构建水凝胶支架而受到越来越多的关注。在此,我们报道了一种由降冰片烯修饰的透明质酸(NorHA)和硫醇化明胶(GelSH)组成的超快速固化硫醇-烯生物墨水用于3D生物打印。在NorHA的合成中首次引入了一种新的简便方法,该方法规避了先前工作中繁琐的步骤。此外,将NorHA与宏观交联剂GelSH混合后,定制的NorHA/GelSH生物墨水相对于金标准GelMA生物墨水表现出令人着迷的优势,如超快的固化速率(1 - 5秒)、大幅降低的光引发剂浓度(0.03% w/v)以及灵活的物理性能。此外,NorHA/GelSH水凝胶极大地避免了过量活性氧的产生,这对封装细胞的存活至关重要。最后,与GelMA支架相比,3D打印的NorHA/GelSH支架不仅表现出优异的细胞活力,还保证了细胞增殖,揭示了其卓越的生物活性。总之,NorHA/GelSH体系是3D生物打印和组织工程应用的一个有前途的候选材料。