Continuous cell lysis in microfluidics through acoustic and optoelectronic tweezers

机译：通过声学和光电镊子在微流体中进行连续细胞裂解

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A versatile platform for efficient cell lysis using a combination of acoustic and electric fields in a microchannel is presented. Cell membrane disruption is triggered by electric fields inducing electroporation and then lysis. The principle of optoelectronic tweezers (OET) is applied to control the electric field strength and a surface acoustic wave transducer is attached to an OET chip to implement acoustic tweezing (AT). The system is characterized in terms of spatial control of electric fields, single cell precision and lysis times. Under continuous operation, a combination of AT and OET improves cell lysis significantly achieving for sample concentrations of 10~6 cell/ml lysis efficiencies of ＞ 99%.

机译：提出了一种在微通道中结合使用声场和电场进行高效细胞裂解的通用平台。电场诱导电穿孔，然后裂解，触发细胞膜破坏。应用光电镊子（OET）的原理来控制电场强度，并将表面声波换能器连接到OET芯片上以实现声镊（AT）。该系统的特征在于电场的空间控制，单细胞精度和裂解时间。在连续操作下，AT和OET的组合可显着改善细胞裂解，样品浓度达到10〜6个细胞/ ml时裂解效率> 99％。

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《Microfluidics, bioMEMS, and medical microsystems XI》|2013年|86150T.1-86150T.8|共8页
会议地点 San Francisco CA(US)
作者
Christian Witte; Clemens Kremer; Jonathan M. Cooper; Steven L. Neale;
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作者单位

University of Glasgow, Biomedical Engineering, Glasgow, G12 8LT, United Kingdom;

University of Glasgow, Biomedical Engineering, Glasgow, G12 8LT, United Kingdom;

University of Glasgow, Biomedical Engineering, Glasgow, G12 8LT, United Kingdom;

University of Glasgow, Biomedical Engineering, Glasgow, G12 8LT, United Kingdom;

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正文语种 eng
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cell lysis; micromanipulation; optoelectronic tweezer; acoustic tweezer; microfluidics; blood;

机译：细胞裂解；显微操作光电镊子声镊微流体血液;

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专利

1. Microfluidic integrated optoelectronic tweezers for single-cell preparation and analysis [J] . Kuo-Wei Huang, Yi-Chien Wu, Ji-Ann Lee Lab on a chip . 2013,第18期

机译：微流集成光电镊子，用于单细胞制备和分析
2. EWOD-driven droplet microfluidic device integrated with optoelectronic tweezers as an automated platform for cellular isolation and analysis [J] . Gaurav J. Shah, Aaron T. Ohta, Eric P.-Y. Chiou Lab on a chip . 2009,第12期

机译：EWOD驱动的液滴微流控设备，与光电镊子集成在一起，可作为自动平台进行细胞分离和分析
3. Electrical force-based continuous cell lysis and sample separation techniques for development of integrated microfluidic cell analysis system: A review [J] . Jeon Hyungkook, Kim Suhyeon, Lim Geunbae Microelectronic Engineering . 2018,第OCTa期

机译：基于电动的连续细胞裂解和样品分离技术开发集成的微流细胞分析系统：综述
4. Continuous cell lysis in microfluidics through acoustic and optoelectronic tweezers [C] . Christian Witte, Clemens Kremer, Jonathan M. Cooper, SPIE Conference on Microfluidics, BioMEMS, and Medical Microsystems . 2013

机译：通过声学和光电镊子微流体连续细胞裂解
5. Biofunctionalized nano-electro-mechanical-systems (bio-nems): Acoustic tweezers--applying acoustics in microfluidics and active plasmonics. [D] . Shi, Jinjie. 2009

机译：生物功能化的纳米电子机械系统（bio-nems）：声学镊子-将声学应用于微流控技术和有源等离子体技术。
6. Trap profiles of projector based optoelectronic tweezers (OET) with HeLa cells [O] . Steven L. Neale, Aaron T. Ohta, Hsan-Yin Hsu, -1

机译：具有HeLa电池的基于投影仪的光电镊子（OET）的陷阱轮廓
7. Continuous cell lysis in microfluidics through acoustic and optoelectronic tweezers [O] . Witte, C., Kremer, C., Cooper, J.M., 2013

机译：通过声学和光电镊子在微流体中连续细胞裂解

Continuous cell lysis in microfluidics through acoustic and optoelectronic tweezers

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