使用微流控流聚焦系统生产用于组织工程的包封细胞的明胶基微胶囊。
Cell-enclosing gelatin-based microcapsule production for tissue engineering using a microfluidic flow-focusing system.
出版信息
Biomicrofluidics. 2011 Mar 30;5(1):13402. doi: 10.1063/1.3516657.
Abstract
Gelatin-based microcapsule production using a microfluidic system and the feasibility of the resultant microcapsules for constructing spherical tissues surrounded by heterogeneous cells were studied. The first cell-encapsulation and subsequent cell-enclosing microparticle encapsulation were achieved using a microfluidic flow-focusing droplet production system. A hollow-core structure of about 150 μm in diameter was developed by incubating the resultant microparticles at 37 °C, which induced thermal melting of the enclosed unmodified gelatin microparticles. Mammalian cells filled the hollow-cores after 4 days of incubation. A cell layer on the cell-enclosing microcapsules was developed by simply suspending the microcapsules in medium containing adherent fibroblast cells. This method may prove useful for the generation of gelatin microcapsules using a microfluidic system for formation of artificial tissue constructs.
摘要
使用微流控系统生产明胶基微胶囊,并研究所得微胶囊用于构建由异质细胞包围的球形组织的可行性。使用微流控流聚焦液滴生成系统实现了第一次细胞包封和随后的微粒子包封。通过将所得微粒子在 37°C 下孵育,形成约 150μm 直径的中空核结构,这诱导了封闭的未改性明胶微粒子的热熔化。孵育 4 天后,哺乳动物细胞充满了中空核。通过将微胶囊简单地悬浮在含有贴壁成纤维细胞的培养基中,可以在包封的微胶囊上形成细胞层。这种方法可能有助于使用微流控系统生成明胶微胶囊,以形成人工组织构建体。
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