Cell-laden interpenetrating network hydrogels formed from methacrylated gelatin and silk fibroin via a combination of sonication and photocrosslinking approaches

Xiao Wenqian; Li Jiale; Qu Xiaohang; Wang Linling; Tan Yunfei; Li Kejiang; Li Hang; Yue Xiangzhi; Li Bo; Liao Xiaoling

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Cell-laden interpenetrating network hydrogels formed from methacrylated gelatin and silk fibroin via a combination of sonication and photocrosslinking approaches

机译：通过超声处理和光关键方法的组合，由甲基丙烯酸明胶和丝素蛋白形成的细胞载载体互穿网络水凝胶

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The regeneration of load-bearing soft tissues has long driven the research and development of bioactive hydrogels. A major challenge facing the application of hydrogels to load-bearing tissues is the development of hydrogels with appropriate biological functionality and biomechanical stability that closely mimic the host tissue. In this paper, we describe a newly synthesized cell-laden interpenetrating polymer network (IPN) hydrogel based on gelatin methacrylate (GelMA) and silk fibroin (SF) that was formed via sequential sonication and photocrosslinking. The experimental results revealed that SF-GelMA IPN hydrogels exhibited high swelling ratios, excellent mechanical properties, resistance to enzymatic degradation by collagenase, and porous internal microstructures. Moreover, these properties could be tailored by changing the prepolymer components. MC3T3-E1 pre-osteoblasts attached to and subsequently proliferated on the IPN hydrogels, as demonstrated by fluorescein diacetate/propidium iodide (FDA/PI) staining and Cell Counting Kit-8 (CCK-8) analysis. In addition, the encapsulation of MC3T3-E1 pre-osteoblasts and a subsequent cell viability assay demonstrated that the entire IPN formation process was compatible with cells and that the growth of encapsulated cells could be tuned by adjusting the GelMA concentration, underlining their versatility for various load-bearing soft tissue engineering. Overall, this study introduces a class of mechanically robust and tunable cell-laden IPN hydrogels which have great potential as load-bearing soft tissue engineering scaffold.

机译：承载载荷软组织的再生长期推动了生物活性水凝胶的研发。水凝胶在承载组织中面临的主要挑战是具有适当的生物功能和生物力学稳定性的水凝胶，其密切模仿宿主组织。在本文中，我们描述了一种基于明胶甲基丙烯酸酯（GELMA）和丝素蛋白（SF）的新合成的细胞载载体互持聚合物网络（IPN）水凝胶，所述丝素蛋白（SF）通过顺序超声波和光学源形成。实验结果表明，SF-GELMA IPN水凝胶表现出高溶胀的比率，优异的机械性能，胶原酶抗性酶促降解，以及多孔内部微观结构。此外，可以通过改变预聚物组分来定制这些性质。如荧光素二乙酸酯/碘化丙酸锌（FDA / PI）染色和细胞计数试剂盒-8（CCK-8）分析所证明，连接在IPN水凝胶上并随后增殖的MC3T3-E1预成骨细胞。此外，MC3T3-E1预成骨细胞的包封和随后的细胞活力测定表明，整个IPN形成过程与细胞相容，并且通过调节凝胶浓度可以调节包封细胞的生长，强调其各种功能性承重软组织工程。总体而言，本研究介绍了一类机械鲁棒和可调调谐的IPN水凝胶，其具有巨大的潜力作为承载软组织工程支架。

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来源
《Materials science & engineering》 |2019年第6期|57-67|共11页
作者
Xiao Wenqian; Li Jiale; Qu Xiaohang; Wang Linling; Tan Yunfei; Li Kejiang; Li Hang; Yue Xiangzhi; Li Bo; Liao Xiaoling;
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作者单位

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Key Lab Nano Micro Composite Mat & Devi Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Engn Lab Nano Micro Biomed Detect Techn Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Engn Lab Nano Micro Biomed Detect Techn Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Key Lab Nano Micro Composite Mat & Devi Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Key Lab Nano Micro Composite Mat & Devi Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Key Lab Nano Micro Composite Mat & Devi Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Engn Lab Nano Micro Biomed Detect Techn Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Engn Lab Nano Micro Biomed Detect Techn Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Key Lab Nano Micro Composite Mat & Devi Chongqing 401331 Peoples R China;

Chongqing Univ Sci & Technol Sch Met & Mat Engn Chongqing Engn Lab Nano Micro Biomed Detect Techn Chongqing 401331 Peoples R China;

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正文语种 eng
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关键词
Cell-laden hydrogel; Silk fibroin; Gelatin; Interpenetrating network;

机译：细胞升水水凝胶;丝素蛋白;明胶;互穿网络;

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专利

1. Cell-laden interpenetrating network hydrogels formed from methacrylated gelatin and silk fibroin via a combination of sonication and photocrosslinking approaches [J] . Xiao Wenqian, Li Jiale, Qu Xiaohang, Materials science & engineering . 2019,第JUNa期

机译：甲基丙烯酸明胶和丝素蛋白通过超声和光交联方法的组合形成的充满细胞的互穿网络水凝胶
2. Cell-laden interpenetrating network hydrogels formed from methacrylated gelatin and silk fibroin via a combination of sonication and photocrosslinking approaches [J] . Xiao Wenqian, Li Jiale, Qu Xiaohang, Materials science & engineering, C. Materials for Biogical applications . 2019,第期

机译：通过超声波和光关键方法的组合，由甲基丙烯酸明胶和丝丝蛋白形成的细胞载载体互穿网络水凝胶
3. A multi-interpenetrating network (IPN) hydrogel with gelatin and silk fibroin [J] . Park Shiwha, Edwards Seth, Hou Shujie, Biomaterials Science . 2019,第4期

机译：具有明胶和丝素蛋白的多互渗透网络（IPN）水凝胶
4. Engineering scaffolds for bone tissue engineering using cell-laden gelatin methacrylate hydrogels [C] . Pranav Soman, Stephen W Sawyer, Lucas D Albrecht, World biomaterials congress . 2016

机译：使用载有细胞的明胶甲基丙烯酸酯水凝胶的骨组织工程工程支架
5. Stimuli-responsive protein-based hydrogels by utilizing beta-sheet conformation of silk fibroin as cross-links. [D] . Gil, Eun Seok. 2005

机译：通过利用丝素蛋白的β-折叠构象作为交联，基于刺激的基于蛋白质的水凝胶。
6. Synthesis and characterization of photocrosslinkable gelatin and silk fibroin interpenetrating polymer network hydrogels [O] . Wenqian Xiao, Jiankang He, Jason W. Nichol, -1

机译：光胶质可翻译明胶和丝素蛋白互穿聚合物网络水凝胶的合成与表征
7. Synthesis and characterization of photocrosslinkable gelatin and silk fibroin interpenetrating polymer network hydrogels [O] . Wenqian Xiao, Jiankang He, Jason W. Nichol, 2011

机译：光胶质可翻译明胶和丝素蛋白互穿聚合物网络水凝胶的合成与表征

Cell-laden interpenetrating network hydrogels formed from methacrylated gelatin and silk fibroin via a combination of sonication and photocrosslinking approaches

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