HIGH-THROUGHPUT WHITE BLOOD CELLS (LEUKOCYTES) SEPARATION AND ENRICHMENT FROM WHOLE BLOOD BY HYDRODYNAMIC AND INERTIAL FORCE

被引:0
|
作者
Tseng, Horas-Cendana [1 ]
Wu, Ren-Guei [2 ]
Chang, Hwan-You [3 ]
Tseng, Fan-Gang [1 ,2 ,4 ]
机构
[1] Natl Tsing Hua Univ, Inst Nano Engn & Micro Syst, Hsinchu, Taiwan
[2] Natl Tsing Hua Univ, Dept Engn & Syst Sci, Hsinchu, Taiwan
[3] Natl Tsing Hua Univ, Dept Life Sci, Hsinchu, Taiwan
[4] Div Mech, Res Ctr Appl Sci, Hsinchu, Taiwan
来源
2012 IEEE 25TH INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS (MEMS) | 2012年
关键词
FILTRATION;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
To solve clogging in microchannel and low separation rate in microfluidic devices that containing high concentration whole blood cells (4.3x10(6) cells/mu l) with the remaining <1% consisting peripheral blood leukocytes and platelets [1-2]. In this work we introduce a like-biomimetic structure to separate red blood cells from whole blood and to enrich leukocytes (white blood cells) through the elastic properties of blood cell by the interaction of inertial force, shear lift, and wall crowding effect in a continuous flow system. A high separation efficiency (similar to 84%) and high throughput flow rate (200 mu l/s or 10ml/min) was obtained in this microfluidic chip.
引用
收藏
页数:4
相关论文
共 50 条
  • [41] High-throughput blood cell focusing and plasma isolation using spiral inertial microfluidic devices
    Nan Xiang
    Zhonghua Ni
    Biomedical Microdevices, 2015, 17
  • [42] High-throughput blood cell focusing and plasma isolation using spiral inertial microfluidic devices
    Xiang, Nan
    Ni, Zhonghua
    BIOMEDICAL MICRODEVICES, 2015, 17 (06) : 1 - 11
  • [43] A high-throughput assay of NK cell activity in whole blood and its clinical application
    Lee, Saet-byul
    Cha, Junhoe
    Kim, Im-Kyung
    Yoon, Joo Chun
    Lee, Hyo Joon
    Park, Sang Woo
    Cho, Sunjung
    Youn, Dong-Ye
    Lee, Heyja
    Lee, Choong Hwan
    Lee, Jae Myun
    Lee, Kang Young
    Kim, Jongsun
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2014, 445 (03) : 584 - 590
  • [44] Perfusion in microfluidic cross-flow: Separation of white blood cells from whole blood and exchange of medium in a continuous flow
    VanDelinder, Virginia
    Groisman, Alex
    ANALYTICAL CHEMISTRY, 2007, 79 (05) : 2023 - 2030
  • [45] Hydrodynamic blood cell separation using fishbone shaped microchannel for circulating tumor cells enrichment
    Kwak, Bongseop
    Lee, Sunghan
    Lee, Jeonghun
    Lee, Jaehun
    Cho, Jangho
    Woo, Hyunsoo
    Heo, Yun Seok
    SENSORS AND ACTUATORS B-CHEMICAL, 2018, 261 : 38 - 43
  • [46] High-throughput toxicological analysis of propofol in human whole blood by LC-MS
    Vlase, Laurian
    Popa, Daniela-Saveta
    Siserman, Costel
    Zaharia, Daniela
    ROMANIAN JOURNAL OF LEGAL MEDICINE, 2011, 19 (02): : 145 - 150
  • [47] Application of high-throughput chiral analysis of amphetamines by GC–MS to whole blood specimens
    Hiroshi Fujii
    Kenji Hara
    Masayuki Kashiwagi
    Aya Matsusue
    Brian Waters
    Shin-ichi Kubo
    Forensic Toxicology, 2013, 31 : 183 - 185
  • [48] Unbiased enrichment of circulating tumor cells directly from whole blood
    Peters, Carrie E.
    Maestre-Battle, Danay
    Woodside, Steven M.
    Thomas, Terry E.
    Eaves, Allen C.
    CANCER RESEARCH, 2016, 76
  • [49] HIGH GRADIENT MAGNETIC SEPARATION OF RED-CELLS FROM WHOLE-BLOOD
    MELVILLE, D
    PAUL, F
    ROATH, S
    IEEE TRANSACTIONS ON MAGNETICS, 1975, 11 (06) : 1701 - 1704
  • [50] Inertial focusing of circulating tumor cells in whole blood at high flow rates using the microfluidic CTCKey™ device for CTC enrichment
    Smith, Kaylee Judith
    Jana, Jessica Antoinette
    Kaehr, Anna
    Purcell, Emma
    Opdycke, Tyler
    Paoletti, Costanza
    Cooling, Laura
    Thamm, Douglas H.
    Hayes, Daniel F.
    Nagrath, Sunitha
    LAB ON A CHIP, 2021, 21 (18) : 3559 - 3572
12345