Novel intra-tissue perfusion system for culturing thick liver tissue.

Tissue engineering Pub Date : 2007-09-01 DOI:10.1089/ten.2007.0040

Yuet Mei Khong, Jing Zhang, Sibo Zhou, Christine Cheung, Kai Doberstein, Victor Samper, Hanry Yu

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引用次数: 48

Abstract

Innovative scaffold fabrication, angiogenesis promotion, and dynamic tissue culture techniques have been utilized to improve delivery of media into the core of large tissue constructs in tissue engineering. We have developed here an intra-tissue perfusion (ITP) system, which incorporates an array of seven micron-sized needles as a delivery conduit, to improve mass transfer into the core of thick liver tissues slices (>>300 microm mass transport limit). The ITP system improves the uniformity and distribution of media throughout the tissue, resulting in improved cell viability over the static-cultured controls. The ITP-cultured thick liver slices also exhibit improved phase I and phase II metabolic functions and albumin and urea synthetic functions after 3-day culture, which is the minimal period required by the U.S. Food and Drug Administration (FDA) for studying drug-drug interaction. This ITP system can also be used for culturing other thick tissue constructs of larger dimensions for various in vitro and in vivo applications, including bridging integration of the in vitro cultured constructs into living host tissues.

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用于培养厚肝组织的新型组织内灌注系统。

在组织工程中，创新的支架制造、血管生成促进和动态组织培养技术已被用于改善将培养基输送到大型组织构建体的核心。我们在这里开发了一种组织内灌注(ITP)系统，该系统包含7个微米大小的针阵列作为输送管道，以改善质量传递到厚肝组织切片的核心(>>300微米的质量传输限制)。ITP系统改善了整个组织中培养基的均匀性和分布，从而比静态培养的对照组提高了细胞活力。itp培养的厚肝切片在培养3天后也表现出改善的I期和II期代谢功能以及白蛋白和尿素合成功能，这是美国食品和药物管理局(FDA)研究药物-药物相互作用所需的最短时间。该ITP系统还可用于培养其他更大尺寸的厚组织构建体，用于各种体外和体内应用，包括将体外培养的构建体桥接整合到活体宿主组织中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY

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