A single-cell encapsulation method based on a microfluidic multi-step droplet splitting system 被引量：1

A single-cell encapsulation method based on a microfluidic multi-step droplet splitting system

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摘要 Single cell analysis is of great significance to understand the physiological activity of organisms.Microfluidic droplet is an ideal analytical platform for single-cell analysis. We developed a microfluidic droplet splitting system integrated with a flow-focusing structure and multi-step splitting structures to form 8-line droplets and encapsulate single cells in the droplets. Droplet generation frequency reached1021 Hz with the aqueous phase flow rate of 1 m L/min and the oil phase flow rate of 15 mL /min. Relative standard deviation of the droplet size was less than 5% in a single channel, while less than 6% in all the8 channels. The system was used for encapsulating human whole blood cells. A single-cell encapsulation efficiency of 31% was obtained with the blood cell concentration of 2.5 ？ 104cells/mL, and the multicellular droplet percentage was only 1.3%. The multi-step droplet splitting system for single cell encapsulation featured simple structure and high throughput. Single cell analysis is of great significance to understand the physiological activity of organisms.Microfluidic droplet is an ideal analytical platform for single-cell analysis. We developed a microfluidic droplet splitting system integrated with a flow-focusing structure and multi-step splitting structures to form 8-line droplets and encapsulate single cells in the droplets. Droplet generation frequency reached1021 Hz with the aqueous phase flow rate of 1 m L/min and the oil phase flow rate of 15 mL /min. Relative standard deviation of the droplet size was less than 5% in a single channel, while less than 6% in all the8 channels. The system was used for encapsulating human whole blood cells. A single-cell encapsulation efficiency of 31% was obtained with the blood cell concentration of 2.5 ？ 104cells/mL, and the multicellular droplet percentage was only 1.3%. The multi-step droplet splitting system for single cell encapsulation featured simple structure and high throughput.

作者 Chun-Guang Yang Ru-Yi Pan Zhang-Run Xu

机构地区 Research Center for Analytical Sciences

出处《Chinese Chemical Letters》 SCIE CAS CSCD 2015年第12期1450-1454,共5页 中国化学快报（英文版）

基金 supported by National Natural Science Foundation of China(Nos.21305010,21375012) Fundamental Research Funds for the Central Universities(No.N140504002) General Scientific Research Projects of Liaoning Provincial Department of Education(No.L2013106)

关键词 encapsulation droplet splitting throughput disperse suspension deviation physiological focusing mixing encapsulation droplet splitting throughput disperse suspension deviation physiological focusing mixing

分类号 Q2-33 [生物学—细胞生物学]

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参考文献23

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Chinese Chemical Letters

2015年第12期

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A single-cell encapsulation method based on a microfluidic multi-step droplet splitting system 被引量：1

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