用于单细胞代谢分析的多传感器阵列

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688453

Ganquan Song, Rishabh M. Shetty, Haixin Zhu, Shashanka Ashili, Liqiang Zhang, Grace Kim, Andrew Shabilla, Wacey Teller, Q. Mei, L. Kelbauskas, Yanqing Tian, Hong Wang, Roger H. Johnson, D. Meldrum

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引用次数: 0

摘要

我们介绍了用于活单细胞代谢分析的多个微口袋盖阵列的设计，制造和表征。在以前的工作中，我们报道了一个量化单细胞耗氧率的平台，该平台使用熔融二氧化硅深湿蚀刻工艺实现。在这里，我们将这项工作扩展到双深度湿蚀刻工艺，用于多传感器捕获(MST)盖子阵列的微制造。每个盖子由多个微口袋组成。氧、pH值、其他细胞外传感器和参考染料沉积在口袋中。为了同时监测多种代谢参数，盖子阵列用于密封微孔阵列，每个微孔包含一个细胞。我们开发的双深度蚀刻工艺可以很容易地应用于其他需要双或多深度微结构的玻璃基微加工目的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Multiple sensor arrays for single cell metabolic analysis

We present the design, fabrication and characterization of multiple micro-pocket lid arrays used in live single cell metabolic analysis. In previous work we reported a platform for quantifying single cell oxygen consumption rates realized using a fused silica deep wet etching process. Here we extend that work to a dual-depth wet etching process for microfabrication of multiple sensor trapping (MST) lid arrays. Each lid comprises multiple micro-pockets. Oxygen, pH, other extra-cellular sensors, and reference dye were deposited in the pockets. In order to achieve simultaneous monitoring of multiple metabolic parameters, the lid array serves to hermetically seal arrays of microwells, each containing a single cell. The dual-depth etching process we developed can be easily applied to other glass-based microfabrication purposes requiring dual- or multiple-depth microstructures.

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2013 IEEE SENSORS

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