Generation of stable concentration gradients in 2D and 3D environments using a microfluidic ladder chamber

被引:0
|
作者
Wajeeh Saadi
Seog Woo Rhee
Francis Lin
Behrad Vahidi
Bong Geun Chung
Noo Li Jeon
机构
[1] University of California at Irvine,Department of Biomedical Engineering
[2] Kongju National University,Department of Chemistry
[3] University of California at Irvine,Department of Physics and Astronomy
来源
Biomedical Microdevices | 2007年 / 9卷
关键词
Microfluidics; Concentration gradients; Ladder Chamber; Cell migration; Neutrophil chemotaxis;
D O I
暂无
中图分类号
学科分类号
摘要
We have developed a simple microfluidic device for generating stable concentration gradients in 2D and 3D environments. The device, termed the Ladder Chamber, uses a two-compartment diffusion system to generate steady state gradients across flow-free channels that connect the source and sink channels. To demonstrate the utility of the Ladder Chamber for cell migration, neutrophil chemotaxis was successfully observed in soluble chemoattractant (IL-8) gradient. The Ladder Chamber’s simple design and experimental implementation make it an attractive approach for investigating cell migration and other biological experiments in well-defined gradients in 2D surfaces as well as in 3D gels.
引用
收藏
页码:627 / 635
页数:8
相关论文
共 50 条
  • [41] 2D µ-Particle Image Velocimetry and Computational Fluid Dynamics Study Within a 3D Porous Scaffold
    A. Campos Marin
    T. Grossi
    E. Bianchi
    G. Dubini
    D. Lacroix
    Annals of Biomedical Engineering, 2017, 45 : 1341 - 1351
  • [42] Real-Time 2D Visualization of Metabolic Activities in Zebrafish Embryos Using a Microfluidic Technology
    Zhu, Feng
    Baker, Daniel
    Skommer, Joanna
    Sewell, Mary
    Wlodkowic, Donald
    CYTOMETRY PART A, 2015, 87A (05) : 446 - 450
  • [43] Identification of hydrodynamic forces around 3D surrogates using particle image velocimetry in a microfluidic channel
    Afshar, Sepideh
    Nath, Shubhankar
    Demirci, Utkan
    Hasan, Tayyaba
    Scarcelli, Giuliano
    Rizvi, Imran
    Franco, Walfre
    MICROFLUIDICS, BIOMEMS, AND MEDICAL MICROSYSTEMS XVI, 2018, 10491
  • [44] INTEGRATED 3D MULTI-PHYSICAL SIMULATION OF A MICROFLUIDIC SYSTEM USING FINITE ELEMENT ANALYSIS
    Sun, Hao
    Li, Zhandong
    Tao, Jianguo
    JOURNAL OF MECHANICS IN MEDICINE AND BIOLOGY, 2015, 15 (06)
  • [45] Leveraging the third dimension in microfluidic devices using 3D printing: no longer just scratching the surface
    Pradela Filho, Lauro A.
    Paixao, Thiago R. L. C.
    Nordin, Gregory P.
    Woolley, Adam T.
    ANALYTICAL AND BIOANALYTICAL CHEMISTRY, 2024, 416 (09) : 2031 - 2037
  • [46] Microfluidic Packaging Integration with Electronic-Photonic Biosensors Using 3D Printed Transfer Molding
    Adamopoulos, Christos
    Gharia, Asmaysinh
    Niknejad, Ali
    Stojanovic, Vladimir
    Anwar, Mekhail
    BIOSENSORS-BASEL, 2020, 10 (11):
  • [47] Microfluidic Packaging Integration with Electronic-Photonic Biosensors Using 3D Printed Transfer Molding
    Adamopoulos C.
    Gharia A.
    Niknejad A.
    Stojanović V.
    Anwar M.
    Biosensors, 2020, 10 (11):
  • [48] High throughput and parallel flow cytometer using microball lens integrated 3D microfluidic device
    Fan, Yu-Jui
    Weng, Yen-Ling
    Sheen, Horn-Jiunn
    2017 IEEE 12TH INTERNATIONAL CONFERENCE ON NANO/MICRO ENGINEERED AND MOLECULAR SYSTEMS (NEMS), 2017, : 426 - 429
  • [49] Chemotaxis-based smart drug delivery of epirubicin using a 3D printed microfluidic chip
    Dalvand, Kolsoum
    Ghiasvand, A.
    Gupta, Vipul
    Paull, Brett
    JOURNAL OF CHROMATOGRAPHY B-ANALYTICAL TECHNOLOGIES IN THE BIOMEDICAL AND LIFE SCIENCES, 2021, 1162
  • [50] A 3D microfluidic device fabrication method using thermopress bonding with multiple layers of polystyrene film
    Cao, Y.
    Bontrager-Singer, J.
    Zhu, L.
    JOURNAL OF MICROMECHANICS AND MICROENGINEERING, 2015, 25 (06)
12345