Issue 14, 2010
From the journal:

Lab on a Chip

A microfluidic device for continuous cancer cell culture and passage with hydrodynamic forces

Liyu Liu,ac   Kevin Loutherback,bc   David Liao,ac   David Yeater,d   Guillaume Lambert,ac   André Estévez-Torres,ac   James C. Sturm,bc   Robert H. Getzenbergd  and  Robert H. Austin*ac  

* Corresponding authors

a Dept. of Physics, Princeton University, NJ, USA
E-mail: austin@princeton.edu

b Dept. of Electrical Engineering, Princeton University, NJ, USA

c Princeton Institute for the Science and Technology of Materials, Princeton University, NJ, USA

d Dept. of Urology, Oncology, Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, MD, USA

Abstract

We demonstrate a novel and robust microfluidic chip with combined functions of continuous culture and output of PC-3 prostate cancer cells. With digital controls, polydimethylsiloxane (PDMS) flexible diaphragms are able to apply hydrodynamic shear forces on cultures, detaching a fraction of attached cancer cells from the surface for output while leaving others for reuse in subsequent cultures. The fractions of detached cells and remaining cells can be precisely controlled. The system has not only the advantages of small size, high cell culture efficiency, and digital control, but also of simple fabrication at low cost, easy operation and robust performance. The chip performs 9 passages during 30 days of continuous culture and shows promise as a durable design suitable for long-term cell output.

Graphical abstract: A microfluidic device for continuous cancer cell culture and passage with hydrodynamic forces

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Article information

DOI
https://doi.org/10.1039/C003509B
Article type
Paper
Submitted
23 Feb 2010
Accepted
08 Apr 2010
First published
27 Apr 2010

Lab Chip, 2010,10, 1807-1813

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A microfluidic device for continuous cancer cell culture and passage with hydrodynamic forces

L. Liu, K. Loutherback, D. Liao, D. Yeater, G. Lambert, A. Estévez-Torres, J. C. Sturm, R. H. Getzenberg and R. H. Austin, Lab Chip, 2010, 10, 1807 DOI: 10.1039/C003509B

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