在微流控装置中排列大鼠原代肝细胞以形成胆小管。
Bile canaliculi formation by aligning rat primary hepatocytes in a microfluidic device.
出版信息
Biomicrofluidics. 2011 Jun;5(2):22212. doi: 10.1063/1.3580753. Epub 2011 Jun 29.
Abstract
In this study, we propose a microfluidic cell culture device mimicking the microscopic structure in liver tissue called hepatic cords. The cell culture area of the device was designed to align hepatocytes in two lines in a similar way to hepatic cords. Thanks to the structural design together with a cell seeding procedure, rat primary hepatocytes were successfully aligned in two lines and cultured under perfusion condition. It is shown that aligned hepatocytes gradually self-organize and form bile canaliculi along the hepatic cord-like structure. The present technique to culture hepatocytes with functional bile canaliculi could be used as an alternative to animal testing in the field of drug discovery and toxicological studies, and also be beneficial to tissue engineering applications.
摘要
在这项研究中,我们提出了一种微流控细胞培养装置,模拟肝脏组织中的微观结构,称为肝索。该装置的细胞培养区域设计为以类似于肝索的方式将肝细胞排列成两排。得益于结构设计和细胞接种程序,大鼠原代肝细胞成功地排列成两排,并在灌注条件下培养。结果表明,排列的肝细胞逐渐自我组织并沿着肝索样结构形成胆小管。本技术可用于培养具有功能性胆小管的肝细胞,以替代药物发现和毒理学研究领域的动物试验,也有利于组织工程应用。
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