Chitosan-Based Inverse Opals: Three-Dimensional Scaffolds with Uniform Pore Structures for Cell Culture

Sung-Wook Choi; Jingwei Xie; Younan Xia

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Chitosan-Based Inverse Opals: Three-Dimensional Scaffolds with Uniform Pore Structures for Cell Culture

机译：基于壳聚糖的反蛋白石：具有均匀孔结构用于细胞培养的三维支架。

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Tissue engineering is a promising approach to the development of biological substitutes that regenerate, replace, maintain, or improve the function of damaged tissues. Among various topics related to tissue engineering, the structures and properties of the scaffolds have been studied extensively in the context of material science and biomedical engineering. There are a number of generic requirements for the scaffold: 1) the material used for fabricating the scaffold must be biocompatible and biodegradable, together with positive responses from the seeded cells; 2) the scaffold should contain a network of pores, and favorably in the form of 3D interconnected architecture; and 3) the scaffold should have proper mechanical properties to suit the specific applications, including the generation of cartilage, bone, artificial blood vessel, among others.

机译：组织工程学是开发可再生，替代，维持或改善受损组织功能的生物替代物的有前途的方法。在与组织工程有关的各种主题中，在材料科学和生物医学工程的背景下，对支架的结构和性质进行了广泛的研究。支架有许多通用要求：1）用于制造支架的材料必须具有生物相容性和可生物降解性，并需要接种细胞的积极响应； 2）支架应包含孔网，并且最好采用3D互连架构的形式； 3）脚手架应具有适合特定应用的适当机械性能，包括软骨，骨骼，人造血管等的生成。

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《Advanced Materials》 |2009年第29期|2997-3001|共5页
作者
Sung-Wook Choi; Jingwei Xie; Younan Xia;
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Department of Biomedical Engineering, Washington University St. Louis, MO 63130 (USA);

Department of Biomedical Engineering, Washington University St. Louis, MO 63130 (USA);

Department of Biomedical Engineering, Washington University St. Louis, MO 63130 (USA);

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1. Modifying the pores of an inverse opal scaffold with Chitosan Microstructures for truly three-dimensional cell culture [J] . Zhang Y., Choi S.-W., Xia Y. Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation . 2012,第4期

机译：用壳聚糖微结构修饰蛋白石反蛋白支架的孔，实现真正的三维细胞培养
2. Fabrication of cell-benign inverse opal hydrogels for three-dimensional cell culture [J] . Pilseon Im, Dong Hwan Ji, Min Kyung Kim, Journal of Colloid and Interface Science . 2017,第期

机译：三维细胞培养细胞良性逆蛋白水凝胶的制备
3. Responsive Inverse Opal Scaffolds with Biomimetic Enrichment Capability for Cell Culture [J] . Changmin Shao, Yuxiao Liu, Junjie Chi, 研究（英文） . 2020,第001期

机译：具有仿生富集能力的细胞培养响应性反蛋白石支架。
4. Formation of Embryoid Bodies with Controlled Sizes and Maintained Pluripotency in Three-Dimensional Alginate Inverse Opal Scaffolds [C] . Yu Zhang, Younan Xia Society for biomaterials annual meeting and exposition . 2013

机译：三维藻酸盐逆蛋白石支架中大小受控且多能性维持的胚状体的形成
5. Multifunctional, chitosan-based nano therapeutics: design and application for two- and three-dimensional cell culture systems. [D] . Suarato, Giulia. 2016

机译：基于壳聚糖的多功能纳米疗法：二维和三维细胞培养系统的设计和应用。
6. Chitosan-Based Inverse Opals: Three-Dimensional Scaffolds with Uniform Pore Structures for Cell Culture [O] . Dr. Sung-Wook Choi, Dr. Jingwei Xie, Younan Xia -1

机译：壳聚糖基反蛋白石：三维支架具有均匀的孔结构用于细胞培养
7. Chitosan-Based Inverse Opals: Three-Dimensional Scaffolds with Uniform Pore Structures for Cell Culture [O] . Sung-Wook Choi, Jingwei Xie, Younan Xia 2009

机译：基于壳聚糖的逆蛋白石：三维支架，具有均匀的细胞培养孔结构

Chitosan-Based Inverse Opals: Three-Dimensional Scaffolds with Uniform Pore Structures for Cell Culture

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