Literature DB >> 20379604

Human mammalian cell sorting using a highly integrated micro-fabricated fluorescence-activated cell sorter (microFACS).

Sung Hwan Cho1, Chun H Chen, Frank S Tsai, Jessica M Godin, Yu-Hwa Lo.   

Abstract

We demonstrate a high performance microfabricated FACS system with highly integrated microfluidics, optics, acoustics, and electronics. Single cell manipulation at a high speed is made possible by the fast response time (approximately 0.1 ms) of the integrated PZT actuator and the nozzle structure at the sorting junction. A Teflon AF-coated optofluidic waveguide along the microfluidic channel guides the illumination light, enabling multi-spot detection, while a novel space-time coding technology enhances the detection sensitivity of the microFACS system. The real-time control loop system is implemented using a field-programmable-gate-array (FPGA) for automated and accurate sorting. The microFACS achieves a high purification enrichment factor: up to approximately 230 fold for both polystyrene microbeads and suspended human mammalian cells (K562) at a high throughput (>1000 cells s(-1)). The sorting mechanism is independent of cell properties such as size, density, and shape, thus the presented system can be applied to sort out any pure sub-populations. This new lab-on-a-chip FACS system, therefore, holds promise to revolutionize microfluidic cytometers to meet cost, size, and performance goals.

Entities:  

Mesh:

Year:  2010        PMID: 20379604      PMCID: PMC3118392          DOI: 10.1039/c000136h

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


  17 in total

1.  Microfluidic sorting of mammalian cells by optical force switching.

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Authors:  Judith A Shizuru; Robert S Negrin; Irving L Weissman
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3.  International Society for Analytical Cytology biosafety standard for sorting of unfixed cells.

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Review 4.  Microfluidic platforms for lab-on-a-chip applications.

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Journal:  Lab Chip       Date:  2007-07-27       Impact factor: 6.799

5.  Soft inertial microfluidics for high throughput separation of bacteria from human blood cells.

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Journal:  Lab Chip       Date:  2009-02-13       Impact factor: 6.799

6.  Identification of pancreatic cancer stem cells.

Authors:  Chenwei Li; David G Heidt; Piero Dalerba; Charles F Burant; Lanjing Zhang; Volkan Adsay; Max Wicha; Michael F Clarke; Diane M Simeone
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7.  Multi-wavelength microflow cytometer using groove-generated sheath flow.

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Journal:  Lab Chip       Date:  2009-03-31       Impact factor: 6.799

8.  Microfluidic cell sorter with integrated piezoelectric actuator.

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Review 9.  Microfluidics and photonics for Bio-System-on-a-Chip: a review of advancements in technology towards a microfluidic flow cytometry chip.

Authors:  Jessica Godin; Chun-Hao Chen; Sung Hwan Cho; Wen Qiao; Frank Tsai; Yu-Hwa Lo
Journal:  J Biophotonics       Date:  2008-10       Impact factor: 3.207

10.  Model study detecting breast cancer cells in peripheral blood mononuclear cells at frequencies as low as 10(-7).

Authors:  H J Gross; B Verwer; D Houck; R A Hoffman; D Recktenwald
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  38 in total

1.  An optical-coding method to measure particle distribution in microfluidic devices.

Authors:  Tsung-Feng Wu; Zhe Mei; Luca Pion-Tonachini; Chao Zhao; Wen Qiao; Ashkan Arianpour; Yu-Hwa Lo
Journal:  AIP Adv       Date:  2011-06-29       Impact factor: 1.548

2.  Lab-on-a-chip flow cytometer employing color-space-time coding.

Authors:  Sung Hwan Cho; Wen Qiao; Frank S Tsai; Kenichi Yamashita; Yu-Hwa Lo
Journal:  Appl Phys Lett       Date:  2010-09-02       Impact factor: 3.791

3.  Review Article: Recent advancements in optofluidic flow cytometer.

Authors:  Sung Hwan Cho; Jessica M Godin; Chun-Hao Chen; Wen Qiao; Hosuk Lee; Yu-Hwa Lo
Journal:  Biomicrofluidics       Date:  2010-12-30       Impact factor: 2.800

4.  Applying an optical space-time coding method to enhance light scattering signals in microfluidic devices.

Authors:  Zhe Mei; Tsung-Feng Wu; Luca Pion-Tonachini; Wen Qiao; Chao Zhao; Zhiwen Liu; Yu-Hwa Lo
Journal:  Biomicrofluidics       Date:  2011-08-16       Impact factor: 2.800

Review 5.  Suspension arrays based on nanoparticle-encoded microspheres for high-throughput multiplexed detection.

Authors:  Yuankui Leng; Kang Sun; Xiaoyuan Chen; Wanwan Li
Journal:  Chem Soc Rev       Date:  2015-05-29       Impact factor: 54.564

6.  Cellular enrichment through microfluidic fractionation based on cell biomechanical properties.

Authors:  Gonghao Wang; Cory Turbyfield; Kaci Crawford; Alexander Alexeev; Todd Sulchek
Journal:  Microfluid Nanofluidics       Date:  2015-06-16       Impact factor: 2.529

7.  Pulsed laser triggered high speed microfluidic fluorescence activated cell sorter.

Authors:  Ting-Hsiang Wu; Yue Chen; Sung-Yong Park; Jason Hong; Tara Teslaa; Jiang F Zhong; Dino Di Carlo; Michael A Teitell; Pei-Yu Chiou
Journal:  Lab Chip       Date:  2012-02-24       Impact factor: 6.799

Review 8.  Advances in microfluidic materials, functions, integration, and applications.

Authors:  Pamela N Nge; Chad I Rogers; Adam T Woolley
Journal:  Chem Rev       Date:  2013-02-14       Impact factor: 60.622

9.  Comparison of inlet geometry in microfluidic cell affinity chromatography.

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Journal:  Anal Chem       Date:  2011-01-05       Impact factor: 6.986

10.  Applications of Microfluidics in Stem Cell Biology.

Authors:  Qiucen Zhang; Robert H Austin
Journal:  Bionanoscience       Date:  2012-12-01
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