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Issue 1, 2005
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Patterned cell culture inside microfluidic devices

Seog Woo Rhee,a   Anne M. Taylor,a   Christina H. Tu,b   David H. Cribbs,b   Carl W. Cotmanb  and  Noo Li Jeon*a  
Author affiliations

* Corresponding authors

a Department of Biomedical Engineering, University of California at Irvine, 204 Rockwell Engineering Center, Irvine, CA 92697-2715, USA
E-mail: njeon@uci.edu
Fax: +1-949-824-9032
Tel: +1-949-824-9968

b Institute for Brain Aging and Dementia, University of California at Irvine, Gillespie Neuroscience Research Facility, Irvine, CA 92697-4540, USA

Abstract

This paper describes a simple plasma-based dry etching method that enables patterned cell culture inside microfluidic devices by allowing patterning, fluidic bonding and sterilization steps to be carried out in a single step. This plasma-based dry etching method was used to pattern cell-adhesive and non-adhesive areas on the glass and polystyrene substrates. The patterned substrate was used for selective attachment and growth of human umbilical vein endothelial cells, MDA-MB-231 human breast cancer cells, NIH 3T3 mouse fibroblasts, and primary rat cortical neurons. Finally, we have successfully combined the dry-patterned substrate with a microfluidic device. Patterned primary rat neurons were maintained for up to 6 days inside the microfluidic devices and the neurons' somas and processes were confined to the cell-adhesive region. The method developed in this work offers a convenient way of micropatterning biomaterials for selective attachment of cells on the substrates, and enables culturing of patterned cells inside microfluidic devices for a number of biological research applications where cells need to be exposed to well-controlled fluidic microenvironment.

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Publication details

The article was received on 01 Mar 2004, accepted on 05 May 2004 and first published on 26 Jul 2004


Article type: Paper
DOI: 10.1039/B403091E
Lab Chip, 2005,5, 102-107

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    Patterned cell culture inside microfluidic devices

    S. W. Rhee, A. M. Taylor, C. H. Tu, D. H. Cribbs, C. W. Cotman and N. L. Jeon, Lab Chip, 2005, 5, 102
    DOI: 10.1039/B403091E

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