Literature DB >> 20046897

Cell Separation by Non-Inertial Force Fields in Microfluidic Systems.

Hideaki Tsutsui1, Chih-Ming Ho.   

Abstract

Cell and microparticle separation in microfluidic systems has recently gained significant attention in sample preparations for biological and chemical studies. Microfluidic separation is typically achieved by applying differential forces on the target particles to guide them into different paths. This paper reviews basic concepts and novel designs of such microfluidic separators with emphasis on the use of non-inertial force fields, including dielectrophoretic force, optical gradient force, magnetic force, and acoustic primary radiation force. Comparisons of separation performances with discussions on physiological effects and instrumentation issues toward point-of-care devices are provided as references for choosing appropriate separation methods for various applications.

Entities:  

Year:  2009        PMID: 20046897      PMCID: PMC2776738          DOI: 10.1016/j.mechrescom.2008.08.006

Source DB:  PubMed          Journal:  Mech Res Commun        ISSN: 0093-6413            Impact factor:   2.254


  70 in total

1.  Cell separation by dielectrophoretic field-flow-fractionation.

Authors:  X B Wang; J Yang; Y Huang; J Vykoukal; F F Becker; P R Gascoyne
Journal:  Anal Chem       Date:  2000-02-15       Impact factor: 6.986

2.  Sorting mesoscopic objects with periodic potential landscapes: optical fractionation.

Authors:  K Ladavac; K Kasza; D G Grier
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2004-07-20

3.  Acoustic control of suspended particles in micro fluidic chips.

Authors:  Andreas Nilsson; Filip Petersson; Henrik Jönsson; Thomas Laurell
Journal:  Lab Chip       Date:  2004-02-09       Impact factor: 6.799

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

Authors:  Mark M Wang; Eugene Tu; Daniel E Raymond; Joon Mo Yang; Haichuan Zhang; Norbert Hagen; Bob Dees; Elinore M Mercer; Anita H Forster; Ilona Kariv; Philippe J Marchand; William F Butler
Journal:  Nat Biotechnol       Date:  2004-12-19       Impact factor: 54.908

5.  On-chip free-flow magnetophoresis: continuous flow separation of magnetic particles and agglomerates.

Authors:  Nicole Pamme; Andreas Manz
Journal:  Anal Chem       Date:  2004-12-15       Impact factor: 6.986

6.  Continuous separation of particles using a microfluidic device equipped with flow rate control valves.

Authors:  Yuushi Sai; Masumi Yamada; Masahiro Yasuda; Minoru Seki
Journal:  J Chromatogr A       Date:  2006-08-07       Impact factor: 4.759

7.  Marker-specific sorting of rare cells using dielectrophoresis.

Authors:  Xiaoyuan Hu; Paul H Bessette; Jiangrong Qian; Carl D Meinhart; Patrick S Daugherty; Hyongsok T Soh
Journal:  Proc Natl Acad Sci U S A       Date:  2005-10-18       Impact factor: 11.205

8.  Separation of plasma from whole human blood in a continuous cross-flow in a molded microfluidic device.

Authors:  Virginia VanDelinder; Alex Groisman
Journal:  Anal Chem       Date:  2006-06-01       Impact factor: 6.986

9.  Optical trapping, manipulation, and sorting of cells and colloids in microfluidic systems with diode laser bars.

Authors:  Robert Applegate; Jeff Squier; Tor Vestad; John Oakey; David Marr
Journal:  Opt Express       Date:  2004-09-20       Impact factor: 3.894

10.  Comet assay measurements of DNA damage in cells by laser microbeams and trapping beams with wavelengths spanning a range of 308 nm to 1064 nm.

Authors:  S K Mohanty; A Rapp; S Monajembashi; P K Gupta; K O Greulich
Journal:  Radiat Res       Date:  2002-04       Impact factor: 2.841
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  33 in total

1.  Inertial focusing dynamics in spiral microchannels.

Authors:  Joseph M Martel; Mehmet Toner
Journal:  Phys Fluids (1994)       Date:  2012-03-06       Impact factor: 3.521

Review 2.  Microfluidics for cell separation.

Authors:  Ali Asgar S Bhagat; Hansen Bow; Han Wei Hou; Swee Jin Tan; Jongyoon Han; Chwee Teck Lim
Journal:  Med Biol Eng Comput       Date:  2010-04-23       Impact factor: 2.602

3.  Efficient dielectrophoretic patterning of embryonic stem cells in energy landscapes defined by hydrogel geometries.

Authors:  Hideaki Tsutsui; Edmond Yu; Sabrina Marquina; Bahram Valamehr; Ieong Wong; Hong Wu; Chih-Ming Ho
Journal:  Ann Biomed Eng       Date:  2010-07-08       Impact factor: 3.934

4.  Continuous-flow Ferrohydrodynamic Sorting of Particles and Cells in Microfluidic Devices.

Authors:  Taotao Zhu; Rui Cheng; Sarah A Lee; Eashwar Rajaraman; Mark A Eiteman; Troy D Querec; Elizabeth R Unger; Leidong Mao
Journal:  Microfluid Nanofluidics       Date:  2012-10       Impact factor: 2.529

5.  Size-based hydrodynamic rare tumor cell separation in curved microfluidic channels.

Authors:  Jiashu Sun; Chao Liu; Mengmeng Li; Jidong Wang; Yunlei Xianyu; Guoqing Hu; Xingyu Jiang
Journal:  Biomicrofluidics       Date:  2013-01-07       Impact factor: 2.800

6.  Optofluidics incorporating actively controlled micro- and nano-particles.

Authors:  Aminuddin A Kayani; Khashayar Khoshmanesh; Stephanie A Ward; Arnan Mitchell; Kourosh Kalantar-Zadeh
Journal:  Biomicrofluidics       Date:  2012-07-18       Impact factor: 2.800

7.  Microfluidic separation of live and dead yeast cells using reservoir-based dielectrophoresis.

Authors:  Saurin Patel; Daniel Showers; Pallavi Vedantam; Tzuen-Rong Tzeng; Shizhi Qian; Xiangchun Xuan
Journal:  Biomicrofluidics       Date:  2012-07-13       Impact factor: 2.800

8.  Optimal control of particle separation in inertial microfluidics.

Authors:  Christopher Prohm; Fredi Tröltzsch; Holger Stark
Journal:  Eur Phys J E Soft Matter       Date:  2013-10-25       Impact factor: 1.890

9.  Curvature-induced dielectrophoresis for continuous separation of particles by charge in spiral microchannels.

Authors:  Junjie Zhu; Xiangchun Xuan
Journal:  Biomicrofluidics       Date:  2011-06-15       Impact factor: 2.800

10.  Micro flow cytometer with self-aligned 3D hydrodynamic focusing.

Authors:  Genni Testa; Gianluca Persichetti; Romeo Bernini
Journal:  Biomed Opt Express       Date:  2014-12-08       Impact factor: 3.732
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