摘要
In this paper, we present a portable single-cell analysis system with the hydrodynamic cell trapping and the broadband electrical impedance spectroscopy(EIS). Using the least flow resistance path principle, the hydrodynamic cell trapping in serpentine arrays can be carried out in a deterministic and automatic manner without the assistance of any external fields. The experimental results show that a cell trap rate of higher than 95% can be easily achieved in our cell trapping microdevices. Using the maximum length sequences(MLS) technique, our home-made EIS is capable of measuring the impedance spectrum ranging from 1.953 kHz to 1 MHz in approximately 0.5 ms. Finally, on the basis of the developed single-cell analysis system, we precisely monitor the trapping process of human breast tumor cells(MCF-7 cells) according to the changes of electrical impedance. The MCF-7 cells with different trapping conditions or sizes can also be clearly distinguished through the impedance signals. Our portable single-cell analysis system may provide a promising tool to monitor single cells for long periods of time or to discriminate cell types.
In this paper, we present a portable single-cell analysis system with the hydrodynamic cell trapping and the broadband electrical impedance spectroscopy (EIS). Using the least flow resistance path principle, the hydrodynamic cell trapping in serpentine arrays can be carried out in a deterministic and automatic manner without the assistance of any external fields. The experimental results show that a cell trap rate of higher than 95% can be easily achieved in our ceil trapping microdevices. Using the maximum length sequences (MLS) technique, our home-made EIS is capable of measuring the impedance spectrum ranging from 1.953 kHz to 1 MHz in approximately 0.5 ms. Finally, on the basis of the developed single-cell analysis system, we precisely monitor the trapping process of human breast tumor cells (MCF-7 cells) according to the changes of electrical impedance. The MCF-7 cells with different trapping conditions or sizes can also be clearly distinguished through the impedance signals. Our portable single-cell analysis system may provide a promising tool to monitor single cells for long periods of time or to discriminate cell types.
基金
supported by the National Natural Science Foundation of China(Grant Nos.51505082,51775111,51375089 and 81572906)
the Natural Science Foundation of Jiangsu Province(Grant No.BK20150606)
the"333"Project of Jiangsu Province(Grant No.BRA2015291)
the Jiangsu Graduate Innovative Research Program(Grant No.KYLX_0098)
the Scientific Research Foundation of Graduate School of Southeast University(Grant No.YBJJ1428)
the Open Foundation of the State Key Laboratory of Fluid Power and Mechatronic Systems(Grant No.GZKF-201501)
关键词
单细胞分析
便携式
阻抗谱
集流体
系统
宽带
MCF-7细胞
捕集
single-cell analysis, hydrodynamic cell trapping, broadband impedance spectroscopy, maximum length sequences
