3D LOBULE-MIMETIC CHIP VIA POSITIVE DIELECTROPHORESIS FORCE WITH SINUSOIDAL SPACING POLY (ETHYLENE GLYCOL)-DIACRYLATE MICROWALLS

机译：3D通过正电泳芯片通过正介电泳力，具有正弦间距聚（乙二醇） - 二氧化丙烯酸酯微井

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In vitro culture and patterning of living cells to form a ordered 3D tissue is a rapidly developing technique with its applications in drug testing, co-culture studies, generating in vitro models of disease and other fields of biotechnology. This paper reports a 3D lobule-mimetic chip where in a three-dimensional lobule is constructed by using positive DEP (Dielectrophoresis) force. Positive DEP force was utilized to attract, adhere and pattern the cells on the surface of poly (ethylene glycol)-diacrylate (PEG-DA). PEG-DA-based check valve and valveless holes were designed to control the distribution of cells. A 3D lobule-mimetic chip is observed depend on this geometry microstructure and the novel cell manipulation method.

机译：体外培养和活细胞的图案化形成有序的3D组织是一种快速发展的技术，其在药物检测中的应用，共同培养研究，产生体外疾病和其他生物技术领域的体外模型。本文报告了通过使用正DEP（介电泳）力来构建三维小叶的3D叶片模拟芯片。利用正的Dem Dem力来吸引，粘附和图案在聚（乙二醇） - 二氧丙酯（PEG-DA）表面上的细胞。基于PEG-DA的止回阀和阀门孔设计用于控制细胞的分布。观察到3D小叶模拟芯片依赖于该几何微结构和新型细胞操纵方法。

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来源
《International Solid-State Sensors, Actuators and Microsystems Conference》|2011年||共4页
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作者
Yu-Shih Chen; Ling-Yi Ke; Cheng-Hsien Liu;
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中图分类 TM1-53;
关键词
3D cell patterning; Lobule-mimetic chip; Hydrogel; Dielectrophoresis;

机译：3D细胞图案化;叶片模仿芯片;水凝胶;介电泳;

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3D LOBULE-MIMETIC CHIP VIA POSITIVE DIELECTROPHORESIS FORCE WITH SINUSOIDAL SPACING POLY (ETHYLENE GLYCOL)-DIACRYLATE MICROWALLS

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