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介孔硅酸镁对基于小麦蛋白的生物复合材料的亲水性、降解性、矿化作用及原代细胞反应的影响

Influences of mesoporous magnesium silicate on the hydrophilicity, degradability, mineralization and primary cell response to a wheat protein based biocomposite.

作者信息

Feng Shipeng, Li Jianyou, Jiang Xuesheng, Li Xiongfeng, Pan Yongkang, Zhao Liming, Boccaccini Aldo R, Zheng Kai, Yang Lili, Wei Jie

机构信息

Key Laboratory for Ultrafine Materials of Ministry of Education and The State Key Laboratory of Bioreactor Engineering, East China University of Science and Technology, Shanghai 200237, China.

出版信息

J Mater Chem B. 2016 Oct 21;4(39):6428-6436. doi: 10.1039/c6tb01449f. Epub 2016 Sep 26.

DOI:10.1039/c6tb01449f
PMID:32263451
Abstract

A novel bioactive composite based on wheat protein (WP) and mesoporous magnesium silicate (m-MS) with a high specific surface area is presented in this study for potential bone tissue regeneration. Wheat protein (WP) is a type of a biodegradable natural polymer material. The m-MS was prepared by the sol-gel technique, which was incorporated into WP to fabricate m-MS/WP composites. The increasing amount of m-MS improved the surface hydrophilicity of m-MS/WP composites. The results showed that the degradation ratio of the m-MS/WP composites increased with an increase in the m-MS content after it was soaked in a Tris-HCl solution for 12 weeks. Moreover, the m-MS/WP composites with 40 wt% m-MS content (WP40) were able to maintain a suitable pH value over a prolonged soaking time, which might be dependent on the content of the m-MS. The WP40 showed a good apatite formation ability after it was soaked in simulated body fluid (SBF) for 7 days, indicating good bioactivity. Moreover, the WP40 with cytocompatibility stimulated the attachment, proliferation and differentiation of MC3T3-E1 osteoblast cells. Briefly, the results indicated that WP40 had good bioactivity, degradability, cytocompatibility and osteogenesis and might be a new biomaterial for bone regeneration.

摘要

本研究提出了一种基于小麦蛋白(WP)和具有高比表面积的介孔硅酸镁(m-MS)的新型生物活性复合材料,用于潜在的骨组织再生。小麦蛋白(WP)是一种可生物降解的天然高分子材料。m-MS通过溶胶-凝胶技术制备,并将其掺入WP中以制备m-MS/WP复合材料。m-MS含量的增加提高了m-MS/WP复合材料的表面亲水性。结果表明,m-MS/WP复合材料在Tris-HCl溶液中浸泡12周后,其降解率随m-MS含量的增加而增加。此外,m-MS含量为40 wt%的m-MS/WP复合材料(WP40)在长时间浸泡过程中能够保持合适的pH值,这可能取决于m-MS的含量。WP40在模拟体液(SBF)中浸泡7天后显示出良好的磷灰石形成能力,表明其具有良好的生物活性。此外,具有细胞相容性的WP40刺激了MC3T3-E1成骨细胞的附着、增殖和分化。简而言之,结果表明WP40具有良好的生物活性、可降解性、细胞相容性和成骨能力,可能是一种用于骨再生的新型生物材料。

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