Journal
BIOMEDICAL MICRODEVICES
Volume 16, Issue 5, Pages 681-686Publisher
SPRINGER
DOI: 10.1007/s10544-014-9872-2
Keywords
Microfluidics; AC impedance cytometer; Printed circuit board; Circulating tumor cell; Point-of-care
Funding
- Sustainable Earth Office at Nanyang Technological University
- Tier-1 Academic Research Fund from Singapore Ministry of Education [RG 26/11]
- Nanyang Technological University
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Microfluidic impedance sensor has been introduced as a cost effective platform in biological cell sensing and counting since several decades ago. Conventional microfluidic impedance sensor usually requires the patterned gold electrodes directly in contact with the carrying buffer to measure the electrical current change due to the blockage of cells. However, patterning metal electrode probes on the silicon or glass substrate is a non-trivial task, which increases the fabrication cost of the impedance sensor. In this paper, we demonstrate an alternating current (AC) impedance based microfluidic cytometer built on a printed circuit board (PCB) coated with polydimethylsiloxane (PDMS) thin film. In addition, circulating tumor cells (Hela cells) are used to successfully demonstrate the feasibility of the microfluidic AC impedance sensor in tumor cell detection. The electrodes pre-deposited PCB costs less than US$2.00 and is widely available in the market. This device has a good potential for point-of-care diagnosis in resource-poor settings.
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