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An optical counting technique with vertical hydrodynamic focusing for biological cells
Date
2010
Abstract
A barrier in scaling laboratory processes into automated microfluidic devices has been the transfer of lab based assays: where engineering meets biological protocol. One basic requirement is to reliably and accurately know the distribution and number of biological cells being dispensed. In this study, a novel optical counting technique to efficiently quantify the number of cells flowing into a microtube is presented. REH, B-lymphoid precursor leukaemia, are stained with a fluorescent dye and frames of moving cells are recorded using a CCD camera. The basic principle is to calculate the total fluorescence intensity of the image and to divide it by the average intensity of a single cell. This method allows counting the number of cells with an uncertainty +/- 5%, which compares favourably to the standard biological methodology, based on the manual Trypan Blue assay, which is destructive to the cells and presents an uncertainty in the order of 20%. The use of a microdevice for vertical hydrodynamic focusing, which can reduce the background noise of out of focus cells by concentrating the cells in a thin layer, has further improved the technique. CFD simulation and Confocal Laser Scanning Microscopy images have shown an 82% reduction in the vertical displacement of the cells. For the flow rates imposed during this study, a throughput of 100-200 cells/sec is achieved.
Supervisor
Description
peer-reviewed
Publisher
American Institute of Physics
Citation
Biomicrofluidics;4(2), 024110
Files
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Newport_2010_optical.pdf
Adobe PDF, 1.3 MB
ULRR Identifiers
Funding code
Funding Information
European Commission under the Marie Curie Early Stage Training Fellowship, Mid-Western Cancer Foundation
Sustainable Development Goals
External Link
Type
Article
Rights
https://creativecommons.org/licenses/by-nc-sa/1.0/