Understanding flow dynamics, viability and metastatic potency of cervical cancer (HeLa) cells through constricted microchannel

Nath, Binita ; Raza, Asif ; Sethi, Vishal ; Dalal, Amaresh ; Ghosh, Siddhartha Sankar ; Biswas, Gautam (2018) Understanding flow dynamics, viability and metastatic potency of cervical cancer (HeLa) cells through constricted microchannel Scientific Reports, 8 (1). ISSN 2045-2322

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Official URL: http://doi.org/10.1038/s41598-018-35646-3

Related URL: http://dx.doi.org/10.1038/s41598-018-35646-3

Abstract

To understand the burgeoning challenges of metastasis, a microchannel of 35 μm diameter, constricted to 7 μm for a distance of 200 μm in a total length of 3 mm, was designed and fabricated using a mask aligner made of polydimethylsiloxane (PDMS) to mimic in vivo capillaries. A thin glass cover-slide was mounted on top to monitor the motion of single or aggregated malignant HeLa cells (size 17–30 μm) microscopically through the constricted microchannel at a constant flow rate of 30 μl/h. Quantitative deconvolution of high-speed videographs of a single cell of 30 μm revealed cellular deformation while passing through constriction, having elongation index, average transit velocity and entry time of 2.67, 18 mm/s and 5.1 ms, respectively. Morphological analysis of live and apoptotic cells by dual staining with Acridine Orange/Ethidium Bromide demonstrated retention of a significant viable cell population after exit through the constriction and a viability index of 50% was quantified by dye exclusion assay. The cumulative data for microfluidic parameters, morphology and relevant metastatic MMP2 gene expression efficiency measured by real-time polymerase chain reaction revealed retention of virulence potency that could possibly cause metastasis, would be beneficial in developing futuristic MEMS device for cancer theranostics.

Item Type:Article
Source:Copyright of this article belongs to Nature Publishing Group.
ID Code:134469
Deposited On:06 Jan 2023 10:17
Last Modified:06 Jan 2023 10:17

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