Alexandra Iordachescu, Richard L. Williams, Philippa A. Hulley, Liam M. Grover
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引用次数: 7
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Abstract
We have developed an organotypic culture system that allows the production of bone tissue features on a centimeter scale. A composite, calcium phosphate–strained fibrin gel system is able to organize itself in the presence of osteoblastic cells, creating basic hierarchical units as seen in vivo , and can be modified to produce a range of other tissues that require such directional structuring. Constructs evolve over time into multi-compositional structures containing a high mineral content and terminally differentiated, osteocyte-like cells. These tissues can be cultured over extended durations (exceeding 1 year) and are responsive to a variety of chemical and biological agents. The platform can reduce the number of animals used in experimentation by acting as an intermediate stage in which more personalized research conditions can be generated. We provide a thorough description of the protocol used to successfully culture and modify this system, as well as guidance on compositional characterization. © 2019 by John Wiley & Sons, Inc.
复合陶瓷-纤维蛋白支架骨样结构的器官型培养
我们已经开发了一种器官型培养系统,可以在厘米尺度上产生骨组织特征。一种复合的磷酸钙纤维蛋白凝胶系统能够在成骨细胞存在的情况下自我组织,产生体内所见的基本等级单位,并且可以被修改以产生一系列需要这种定向结构的其他组织。随着时间的推移,构建物进化成含有高矿物质含量和终末分化的骨细胞样细胞的多组分结构。这些组织可以长时间培养(超过1年),对各种化学和生物制剂有反应。该平台作为一个中间阶段,可以产生更个性化的研究条件,从而减少实验中使用的动物数量。我们提供了用于成功培养和修改该系统的协议的详细描述,以及对组成表征的指导。©2019 by John Wiley &儿子,Inc。
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