This study reports a microfluidic device for generating 2-dimensional concentration gradients of biomolecules along the width and length of a chamber and conventional 1-dimensional gradients along the width of its lateral parallel channels. The gradient profile can be precisely controlled by the applied flow rate. The proposed design is simple and straightforward, has a small footprint size compared to previously reported devices such as tree-shape designs, and for the first time, provides capability of generating desired 2D and 1D gradients, simultaneously. The finite element simulation analysis proves the feasibility of the microfluidic device, and the fluorescently labelled IgG antibody is used to demonstrate generated chemical gradients. This simple microfluidic device can be implemented for a wide range of high-throughput concentration gradient applications such as chemotaxis, drug screening, and organs-on-chips.
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July 2017
Research Article|
August 02 2017
Generating 2-dimensional concentration gradients of biomolecules using a simple microfluidic design
Amid Shakeri;
Amid Shakeri
1
Department of Mechanical Engineering, McMaster University
, 1280 Main Street West, Hamilton, Ontario L8S 4L7, Canada
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Nick Sun;
Nick Sun
1
Department of Mechanical Engineering, McMaster University
, 1280 Main Street West, Hamilton, Ontario L8S 4L7, Canada
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Maryam Badv;
Maryam Badv
2
School of Biomedical Engineering, McMaster University
, 1280 Main Street West, Hamilton, Ontario L8S 4L8, Canada
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Tohid F. Didar
Tohid F. Didar
a)
1
Department of Mechanical Engineering, McMaster University
, 1280 Main Street West, Hamilton, Ontario L8S 4L7, Canada
2
School of Biomedical Engineering, McMaster University
, 1280 Main Street West, Hamilton, Ontario L8S 4L8, Canada
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a)
Author to whom correspondence should be addressed: didar@mcmaster.ca
Biomicrofluidics 11, 044111 (2017)
Article history
Received:
June 21 2017
Accepted:
July 26 2017
Citation
Amid Shakeri, Nick Sun, Maryam Badv, Tohid F. Didar; Generating 2-dimensional concentration gradients of biomolecules using a simple microfluidic design. Biomicrofluidics 1 July 2017; 11 (4): 044111. https://doi.org/10.1063/1.4991550
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