一种新型的用于体外微血管化的流动生物反应器。
A novel flow bioreactor for in vitro microvascularization.
机构信息
Department of Anesthesiology, Yale University, New Haven, CT 06520, USA.
出版信息
Tissue Eng Part C Methods. 2010 Oct;16(5):1191-200. doi: 10.1089/ten.TEC.2009.0652.
Abstract
Although the importance of fluid flow for proper vascular development and function in vivo is well recognized, microvascular formation in response to flow has not been well evaluated in a three-dimensional (3D) environment in vitro. In this study, we developed a novel 3D in vitro perfusion system that allows direct investigation of the effects of shear stress on the development of microvasculature in vitro. This system utilizes a 3D collagen gel for suspension of vascular cells and mesenchymal stem cells, through which flow is directly perfused. We characterized the flow conditions and demonstrate the impact of flow on the development of microvasculature using a coculture of endothelial cells and mesenchymal stem cells. With the unique ability to apply bulk flow through the collagen gels, and to estimate shear stress within the constructs, this perfusion system provides a flexible platform for developing a controllable biomimetic environment that can be adapted for a variety of investigations of microvascularization.
摘要
尽管人们已经充分认识到液流对于血管正常发育和功能的重要性,但在体外三维(3D)环境中,针对液流刺激的微血管形成尚未得到很好的评估。在这项研究中,我们开发了一种新颖的 3D 体外灌注系统,可直接研究切应力对体外微血管发育的影响。该系统利用 3D 胶原凝胶来悬浮血管细胞和间充质干细胞,通过该凝胶直接灌注液流。我们对流动条件进行了特征描述,并利用内皮细胞和间充质干细胞的共培养物来演示流动对微血管发育的影响。该灌注系统通过胶原凝胶传递整体流动,并能估计构建体内部的切应力,具有独特的能力,为开发可控制的仿生环境提供了一个灵活的平台,可适应多种微血管化研究。
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