Approaches to organize cells on surfaces

Author

Tan, John L. ; Nelson, Celeste M. ; Gray, Darren S. ; Chen, Christopher S.

Author_Institution

Dept. of Biomed. Eng., Johns Hopkins Univ., Baltimore, MD, USA

fYear

2002

fDate

6/24/1905 12:00:00 AM

Firstpage

101

Lastpage

103

Abstract

The binding of cell surface receptors to local bioactive ligands is the principal mechanism by which cells survey their microenvironment and accordingly modulate their behaviors, such as proliferation, differentiation, migration, and suicide. Using microfabrication approaches to engineer cellular microenvironments, we examine how the spatial positioning of cells and their intercellular contacts can control cellular functions. Here, we describe methods to pattern the adhesivity of surfaces to 1) control the position of cells on surfaces, 2) measure forces generated by cells against deformable substrata, and 3) control the extent of cell-to-cell contact. We hope to use the microengineered substrates to improve the interface between artificial surfaces and living cells

Keywords

adhesion; biological techniques; biomedical materials; cellular biophysics; self-assembly; substrates; adhesivity; artificial surfaces; binding; cell organization; cell surface receptors; cell-to-cell contact; cellular function control; deformable substrata; differentiation; force measurement; intercellular contacts; living cells; local bioactive ligands; microengineered substrates; microenvironment; microfabrication approaches; migration; position control; proliferation; spatial positioning; suicide; Adhesives; Biomedical engineering; Biomedical measurements; Electrochemical machining; Extracellular; Force control; Gold; Oncology; Proteins; Switches;

fLanguage

English

Publisher

ieee

Conference_Titel

Microtechnologies in Medicine & Biology 2nd Annual International IEEE-EMB Special Topic Conference on

Conference_Location

Madison, WI

Print_ISBN

0-7803-7480-0

Type

conf

DOI

10.1109/MMB.2002.1002273

Filename

1002273