骨组织工程间充质干细胞的流动灌注培养

F. Kasper, Jiehong Liao, J. Kretlow, V. Sikavitsas, A. Mikos
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引用次数: 14

摘要

由于目前的植骨材料供应有限,且存在许多潜在的并发症,因此在骨科应用中,对能够促进骨再生的替代生物活性植入材料存在巨大的临床需求。组织工程技术的最新进展使生物无活性材料(如钛纤维网)的涂层具有生物活性的骨样细胞外基质,这种基质是由间充质干细胞在体外培养过程中产生的。由此产生的构建体可以作为脱细胞支架或间充质干细胞群体的移植载体植入,以指导体内骨组织再生。这种新颖的组织工程策略标志着药物递送方法的范式转变,从从支架递送生物活性因子到在体外工程条件下生成含有细胞产生的生物信号片段的构建体。本章简要介绍了骨组织工程的一般策略,并概述了我们实验室在骨组织工程中应用间充质干细胞体外生成具有生物活性的骨样细胞外基质结构方面的开创性工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flow perfusion culture of mesenchymal stem cells for bone tissue engineering
Due to the limited supply of and numerous potential complications associated with current bone grafting materials, a tremendous clinical need exists for alternative biologically active implant materials capable of promoting bone regeneration in orthopaedic applications. Recent advances in tissue engineering technology have enabled the coating of biologically inactive materials, such as titanium fiber meshes, with a biologically active bone-like extracellular matrix produced by mesenchymal stem cells during in vitro culture. The resulting constructs can then be implanted as acellular scaffolds or as transplantation vehicles for mesenchymal stem cell populations to guide bone tissue regeneration in vivo. Such a novel tissue engineering strategy marks a paradigmatic shift in drug delivery approaches from delivering bioactive factors from a scaffold to generating constructs that contain biological signaling moieties produced by cells under engineered conditions in vitro. This chapter provides a brief introduction to general bone tissue engineering strategies and an overview of the seminal work from our laboratory in the application of mesenchymal stem cells in the in vitro generation of biologically active bone-like extracellular matrix constructs for bone tissue engineering.
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