In-Vitro Rapid Centimeter-Scale Reconstruction of Lobule-Mimetic Liver Tissue Employing Dielectrophoresis-Based Cell Patterning

Chen-Ta Ho, Ruei-Zeng Lin, Hwan-You Chang, Cheng-Hsien Liu
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引用次数: 4

Abstract

A lobule-mimetic cell-patterning technique for on-chip reconstructing centimeter-scale liver tissue of heterogeneous hepatic and endothelial cells via the enhanced field-induced dielectrophoresis (DEP) trap is demonstrated and reported. By mimicking the basic morphology of the liver tissue, the classic hepatic lobule, the lobule-mimetic-stellate-electrodes array is designed for cell patterning via DEP operation. Through the vertical positive DEP manipulation, well-defined and enhanced spatial electric field gradients are created for in-parallel manipulating of massive individual cells. Experiment results show that both hepatic and endothelial cells are orderly guided, snared, and aligned along the field-induced orientation to from the lobule-mimetic pattern containing of multiple radial hepatic cell-strings interlaced with radial endothelial cell-strings. About 95% cell viability of hepatic and endothelial cells is also observed after cell-patterning demonstration via the fluorescent assay technique.
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基于介电电泳细胞图谱的体外快速厘米级模拟小叶肝组织重建
通过增强场诱导双电泳(DEP)陷阱,展示并报道了一种用于异质肝细胞和内皮细胞的厘米级肝组织芯片重建的小叶模拟细胞图谱技术。通过模拟肝组织的基本形态,即经典的肝小叶,小叶模拟星状电极阵列被设计用于通过DEP手术进行细胞图案绘制。通过垂直的正DEP操作,创建了明确的和增强的空间电场梯度,用于并行操作大量单个细胞。实验结果表明,肝细胞和内皮细胞沿场诱导方向有序地引导、诱捕和排列,从含有多个放射状肝细胞串与放射状内皮细胞串交织的小叶模拟模式。通过荧光分析技术,肝细胞和内皮细胞的存活率约为95%。
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