用于单粒子图案化的介电泳陷阱

Dielectrophoretic traps for single-particle patterning.

作者信息

Rosenthal Adam, Voldman Joel

机构信息

Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.

出版信息

Biophys J. 2005 Mar;88(3):2193-205. doi: 10.1529/biophysj.104.049684. Epub 2004 Dec 21.

DOI:10.1529/biophysj.104.049684

PMID:15613624

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1305270/

Abstract

We present a novel microfabricated dielectrophoretic trap designed to pattern large arrays of single cells. Because flowing away untrapped cells is often the rate-limiting step during cell patterning, we designed the trap to be strong enough to hold particles against practical flow rates. We experimentally validated the trap strength by measuring the maximum flow rate that polystyrene beads could withstand while remaining trapped. These bead experiments have shown excellent agreement with our model predictions, without the use of fitting parameters. The model was able to provide us with a fundamental understanding of how the traps work, and additionally allowed us to establish a set of design rules for optimizing the traps for a wide range of cell sizes. We provide the foundations for an enabling technology that can be used to pattern cells in unique ways, allowing us to do novel cell biology experiments at the microscale.

摘要

我们展示了一种新型的微制造介电泳阱，其设计用于对大量单细胞阵列进行图案化。由于在细胞图案化过程中，使未捕获的细胞流走通常是限速步骤，我们将阱设计得足够强大，能够在实际流速下捕获颗粒。我们通过测量聚苯乙烯珠在仍被捕获的情况下所能承受的最大流速，对阱的强度进行了实验验证。这些珠实验与我们的模型预测显示出极佳的一致性，且无需使用拟合参数。该模型使我们能够从根本上理解阱的工作原理，此外还让我们建立了一套设计规则，用于针对各种细胞大小优化阱。我们为一种赋能技术奠定了基础，该技术可用于以独特方式对细胞进行图案化，使我们能够在微观尺度上开展新颖的细胞生物学实验。

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