Micro-electromechanical systems (MEMS) technologies illustrate the potential for many applications in the field of tissue engineering, regenerative medicine, and life sciences. The fabrication of tissue models integrates the multidisciplinary field of life sciences and engineering. Presently, monolayer cell cultures are frequently used to investigate potential anticancer agents. These monolayer cultures give limited feedback on the effects of the micro-environment. A micro-environment, which mimics that of the target tissue, will eliminate the limitations of the traditional mainstays of tissue research. The fabrication of such micro-environment requires a thorough investigation of the actual target organ, and or tissue. Conventional MEMS technologies are developed for the fabrication of integrated circuits on silicon wafers. Conventional MEMS technologies are very expensive and are not developed for biological applications. The digital micromirroring microfabrication (DMM) system eliminates the need for an expensive chrome mask by incorporating a dynamic mask-less fabrication technique. The DMM is designed to utilize its digital micromirrors to fabricate of biological devices. This digital microfabrication system provides a platform for the fabrication of economic biological microfluidics that is specifically designed to mimic the in vivo conditions of the tissue of interest. Investigations portrayed in this paper demonstrate the DMM capabilities to develop biological microfluidics. Though the applications of the DMM are extensive, the simple sinusoidal microfluidic characterized in this paper illustrates the DMM capabilities to develop biological microfluidic chips.
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December 2014
Research-Article
Fabrication of Biological Microfluidics Using a Digital Microfabrication System
Qudus Hamid,
Qudus Hamid
Department of Mechanical
Engineering and Mechanics,
e-mail: qh25@drexel.edu
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
e-mail: qh25@drexel.edu
Search for other works by this author on:
Chengyang Wang,
Chengyang Wang
Department of Mechanical
Engineering and Mechanics,
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
Search for other works by this author on:
Yu Zhao,
Yu Zhao
Mechanical Engineering and
Biomanufacturing Research Institute,
Biomanufacturing Research Institute,
Tsinghua University
,Beijing 100000
, China
Search for other works by this author on:
Jessica Snyder,
Jessica Snyder
Department of Mechanical
Engineering and Mechanics,
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
Search for other works by this author on:
Wei Sun
Wei Sun
1
Department of Mechanical
Engineering and Mechanics,
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
Mechanical Engineering and
Biomanufacturing Research Institute,
Biomanufacturing Research Institute,
Tsinghua University
,Beijing 100000
, China
Shenzhen Biomanufacturing
Engineering Laboratory,
e-mail: sunwei@drexel.edu
Engineering Laboratory,
Shenzhen, Guangdong 518021
, China
e-mail: sunwei@drexel.edu
1Corresponding author.
Search for other works by this author on:
Qudus Hamid
Department of Mechanical
Engineering and Mechanics,
e-mail: qh25@drexel.edu
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
e-mail: qh25@drexel.edu
Chengyang Wang
Department of Mechanical
Engineering and Mechanics,
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
Yu Zhao
Mechanical Engineering and
Biomanufacturing Research Institute,
Biomanufacturing Research Institute,
Tsinghua University
,Beijing 100000
, China
Jessica Snyder
Department of Mechanical
Engineering and Mechanics,
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
Wei Sun
Department of Mechanical
Engineering and Mechanics,
Engineering and Mechanics,
Drexel University
,Philadelphia, PA 19104
Mechanical Engineering and
Biomanufacturing Research Institute,
Biomanufacturing Research Institute,
Tsinghua University
,Beijing 100000
, China
Shenzhen Biomanufacturing
Engineering Laboratory,
e-mail: sunwei@drexel.edu
Engineering Laboratory,
Shenzhen, Guangdong 518021
, China
e-mail: sunwei@drexel.edu
1Corresponding author.
Contributed by the Manufacturing Engineering Division of ASME for publication in the JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING. Manuscript received February 27, 2014; final manuscript received August 19, 2014; published online October 24, 2014. Assoc. Editor: Joseph Beaman.
J. Manuf. Sci. Eng. Dec 2014, 136(6): 061001 (7 pages)
Published Online: October 24, 2014
Article history
Received:
February 27, 2014
Revision Received:
August 19, 2014
Citation
Hamid, Q., Wang, C., Zhao, Y., Snyder, J., and Sun, W. (October 24, 2014). "Fabrication of Biological Microfluidics Using a Digital Microfabrication System." ASME. J. Manuf. Sci. Eng. December 2014; 136(6): 061001. https://doi.org/10.1115/1.4028419
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