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Literature DB >> 18584086

Drop-based microfluidic devices for encapsulation of single cells.

Sarah Köster¹, Francesco E Angilè, Honey Duan, Jeremy J Agresti, Anton Wintner, Christian Schmitz, Amy C Rowat, Christoph A Merten, Dario Pisignano, Andrew D Griffiths, David A Weitz.

Abstract

We use microfluidic devices to encapsulate, incubate, and manipulate individual cells in picoliter aqueous drops in a carrier fluid at rates of up to several hundred Hz. We use a modular approach with individual devices for each function, thereby significantly increasing the robustness of our system and making it highly flexible and adaptable to a variety of cell-based assays. The small volumes of the drops enables the concentrations of secreted molecules to rapidly attain detectable levels. We show that single hybridoma cells in 33 pL drops secrete detectable concentrations of antibodies in only 6 h and remain fully viable. These devices hold the promise of developing microfluidic cell cytometers and cell sorters with much greater functionality, allowing assays to be performed on individual cells in their own microenvironment prior to analysis and sorting.

Mesh：

Substances：
Antibodies

Year: 2008 PMID： 18584086 DOI： 10.1039/b802941e

Source DB: PubMed Journal: Lab Chip ISSN： 1473-0189 Impact factor: 6.799

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Cited

118 in total

1. Monitoring single-cell bioenergetics via the coarsening of emulsion droplets.

Authors: L Boitard; D Cottinet; C Kleinschmitt; N Bremond; J Baudry; G Yvert; J Bibette
Journal: Proc Natl Acad Sci U S A Date: 2012-04-25 Impact factor: 11.205

2. Density-dependent separation of encapsulated cells in a microfluidic channel by using a standing surface acoustic wave.

Authors: Jeonghun Nam; Hyunjung Lim; Choong Kim; Ji Yoon Kang; Sehyun Shin
Journal: Biomicrofluidics Date: 2012-05-16 Impact factor: 2.800

3. High throughput single-cell and multiple-cell micro-encapsulation.

Authors: Todd P Lagus; Jon F Edd
Journal: J Vis Exp Date: 2012-06-15 Impact factor: 1.355

4. Functional single-cell hybridoma screening using droplet-based microfluidics.

Authors: Bachir El Debs; Ramesh Utharala; Irina V Balyasnikova; Andrew D Griffiths; Christoph A Merten
Journal: Proc Natl Acad Sci U S A Date: 2012-07-02 Impact factor: 11.205

5. High-throughput injection with microfluidics using picoinjectors.

Authors: Adam R Abate; Tony Hung; Pascaline Mary; Jeremy J Agresti; David A Weitz
Journal: Proc Natl Acad Sci U S A Date: 2010-10-20 Impact factor: 11.205

Review 6. Microfluidic approaches for isolation, detection, and characterization of extracellular vesicles: Current status and future directions.

Authors: Shima Gholizadeh; Mohamed Shehata Draz; Maryam Zarghooni; Amir Sanati-Nezhad; Saeid Ghavami; Hadi Shafiee; Mohsen Akbari
Journal: Biosens Bioelectron Date: 2016-12-30 Impact factor: 10.618

Review 7. Microfluidic stochastic confinement enhances analysis of rare cells by isolating cells and creating high density environments for control of diffusible signals.

Authors: Meghan E Vincent; Weishan Liu; Elizabeth B Haney; Rustem F Ismagilov
Journal: Chem Soc Rev Date: 2010-01-12 Impact factor: 54.564