Microfluidic aqueous two phase system for leukocyte concentration from whole blood

被引:101
|
作者
SooHoo, Jeffrey R. [1 ]
Walker, Glenn M.
机构
[1] N Carolina State Univ, Joint Dept Biomed Engn, Raleigh, NC 27695 USA
来源
BIOMEDICAL MICRODEVICES | 2009年 / 11卷 / 02期
关键词
Microfluidics; Leukocyte; Aqueous two phase separation; Blood; PEG; Dex; MEMBRANE-SURFACE PROPERTIES; PHASE SYSTEMS; COUNTERCURRENT DISTRIBUTION; FLOW FRACTIONATION; CELLS; PARTITION; LYMPHOCYTES; SEPARATION; POLYMER; DEVICE;
D O I
10.1007/s10544-008-9238-8
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Leukocytes from a whole blood sample were concentrated using a microfluidic aqueous two phase system (mu ATPS). Whole blood was simultaneously exposed to polyethylene glycol (PEG) and dextran (Dex) phase streams and cells were partitioned based on their differential affinity for the streams. The laminar flow characteristic of microfluidic devices was used to create zero, one, and two stable interfaces between the polymer streams. Three different patterns of three polymer streams each were evaluated for their effectiveness in concentrating leukocytes: immiscible PEG-PEG-Dex, immiscible Dex-PEG-Dex, and miscible PEG-PBS-Dex. The most effective configuration was the Dex-PEG-Dex stream pattern which on average increased the ratio of leukocytes to erythrocytes by a factor of 9.13 over unconcentrated blood.
引用
收藏
页码:323 / 329
页数:7
相关论文
共 50 条
  • [1] Microfluidic aqueous two phase system for leukocyte concentration from whole blood
    Jeffrey R. SooHoo
    Glenn M. Walker
    Biomedical Microdevices, 2009, 11 : 323 - 329
  • [2] Platelet separation from whole blood in an aqueous two-phase system with water-soluble polymers
    Sumida, Emi
    Iwasaki, Yasuhiko
    Akiyoshi, Kazunari
    Kasugai, Shohei
    JOURNAL OF PHARMACOLOGICAL SCIENCES, 2006, 101 (01) : 91 - 97
  • [3] Microfluidic Sedimentation System for Separation of Plasma from Whole Blood
    Kuroda, Chiaki
    Ohki, Yoshimichi
    Ashiba, Hiroki
    Fujimaki, Makoto
    Awazu, Koichi
    Tanaka, Torahiko
    Makishima, Makoto
    2014 IEEE SENSORS, 2014, : 1854 - 1857
  • [4] Cell separation by an aqueous two-phase system in a microfluidic device
    Tsukamoto, Masatoshi
    Taira, Shu
    Yamamura, Shohei
    Morita, Yasutaka
    Nagatani, Naoki
    Takamura, Yuzuru
    Tamiya, Eiichi
    ANALYST, 2009, 134 (10) : 1994 - 1998
  • [5] Electronic-Microfluidic System for Sorting Particles and Whole Blood Using Gel Electrodes
    Luo, Jason
    Nelson, Edward
    Li, G. -P.
    Bachman, Mark
    2013 IEEE 63RD ELECTRONIC COMPONENTS AND TECHNOLOGY CONFERENCE (ECTC), 2013, : 1905 - 1911
  • [6] Continuous laccase concentration in an aqueous two-phase system
    Blatkiewicz, Michal
    Antecka, Anna
    Gorak, Andrzej
    Ledakowicz, Stanislaw
    CHEMICAL PAPERS, 2018, 72 (03): : 555 - 566
  • [7] INVESTIGATION OF KINETICS OF CRYSTALLIZATION FROM A CONCENTRATION CONTROLLED SUPERSATURATED SOLUTION IN A TWO-PHASE MICROFLUIDIC SYSTEM
    Onel, Selis
    Ahmed, Tijani Ahmed
    Hatiboglu, Anil
    PROCEEDINGS OF ASME 2023 INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION, IMECE2023, VOL 9, 2023,
  • [8] Lectin-mediated microfluidic capture and release of leukemic lymphocytes from whole blood
    Vickers, Dwayne A. L.
    Hincapie, Marina
    Hancock, William S.
    Murthy, Shashi K.
    BIOMEDICAL MICRODEVICES, 2011, 13 (03) : 565 - 571
  • [9] Microfluidic generation of aqueous two-phase system (ATPS) droplets by controlled pulsating inlet pressures
    Moon, Byeong-Ui
    Jones, Steven G.
    Hwang, Dae Kun
    Tsai, Scott S. H.
    LAB ON A CHIP, 2015, 15 (11) : 2437 - 2444
  • [10] A microfluidic chip for direct and rapid trapping of white blood cells from whole blood
    Chen, Jingdong
    Chen, Di
    Yuan, Tao
    Xie, Yao
    Chen, Xiang
    BIOMICROFLUIDICS, 2013, 7 (03):
12345