Control of cell behavior on the polymer functionalized biointerface

Hidenori Otsuka; Tomomi Satomi; Koji Ueno; Akiyoshi Taniguchi; Hisatoshi Kobayashi; Junzo Tanaka; Yukio Nagasaki; Kazunori Kataoka; Yohei Fujita

Control of cell behavior on the polymer functionalized biointerface

Hidenori Otsuka, Tomomi Satomi, Koji Ueno, Akiyoshi Taniguchi, Hisatoshi Kobayashi, Junzo Tanaka, Yukio Nagasaki, Kazunori Kataoka, Yohei Fujita

Department of Applied Chemistry

Research output: Contribution to conference › Paper › peer-review

Abstract

Micropatterned PEGylated substrates with two-dimensional arrays of plasma-etched circular domains were prepared by coating of poly(ethylene glycol) (PEG) based polymer on the substrate, followed by plasma-etching through a metal mask pattern with circular holes. The PEGylated region on the patterned substrate works to repel proteins, consequently, inhibits cell adhesion. Then the micro-patterning of bovine articular chondrocytes or rat primary hepatocytes hetero-spheroids underlaid with endothelial cells was achieved on the plasma-etched circular domains, exposing the base substrate surface. PEG-g-pyridine copolymer was then synthesized for long-term cell culture, which is expected to have long stability, to overcome deterioration of polymer modified surface at room temperature and atmospheric conditions when single-point adsorption was employed.

Original language	English
Pages	5145-5146
Number of pages	2
Publication status	Published - 2005
Event	54th SPSJ Symposium on Macromolecules - Yamagata, Japan Duration: 20 Sept 2005 → 22 Sept 2005

Conference

Conference	54th SPSJ Symposium on Macromolecules
Country/Territory	Japan
City	Yamagata
Period	20/09/05 → 22/09/05

Keywords

Bio-nanointerface
Cell patterning
Chondrocyte
Hepatocyte
Spheroid
Tissue engineering

Cite this

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title = "Control of cell behavior on the polymer functionalized biointerface",

abstract = "Micropatterned PEGylated substrates with two-dimensional arrays of plasma-etched circular domains were prepared by coating of poly(ethylene glycol) (PEG) based polymer on the substrate, followed by plasma-etching through a metal mask pattern with circular holes. The PEGylated region on the patterned substrate works to repel proteins, consequently, inhibits cell adhesion. Then the micro-patterning of bovine articular chondrocytes or rat primary hepatocytes hetero-spheroids underlaid with endothelial cells was achieved on the plasma-etched circular domains, exposing the base substrate surface. PEG-g-pyridine copolymer was then synthesized for long-term cell culture, which is expected to have long stability, to overcome deterioration of polymer modified surface at room temperature and atmospheric conditions when single-point adsorption was employed.",

keywords = "Bio-nanointerface, Cell patterning, Chondrocyte, Hepatocyte, Spheroid, Tissue engineering",

author = "Hidenori Otsuka and Tomomi Satomi and Koji Ueno and Akiyoshi Taniguchi and Hisatoshi Kobayashi and Junzo Tanaka and Yukio Nagasaki and Kazunori Kataoka and Yohei Fujita",

year = "2005",

language = "English",

pages = "5145--5146",

note = "54th SPSJ Symposium on Macromolecules ; Conference date: 20-09-2005 Through 22-09-2005",

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TY - CONF

T1 - Control of cell behavior on the polymer functionalized biointerface

AU - Otsuka, Hidenori

AU - Satomi, Tomomi

AU - Ueno, Koji

AU - Taniguchi, Akiyoshi

AU - Kobayashi, Hisatoshi

AU - Tanaka, Junzo

AU - Nagasaki, Yukio

AU - Kataoka, Kazunori

AU - Fujita, Yohei

PY - 2005

Y1 - 2005

N2 - Micropatterned PEGylated substrates with two-dimensional arrays of plasma-etched circular domains were prepared by coating of poly(ethylene glycol) (PEG) based polymer on the substrate, followed by plasma-etching through a metal mask pattern with circular holes. The PEGylated region on the patterned substrate works to repel proteins, consequently, inhibits cell adhesion. Then the micro-patterning of bovine articular chondrocytes or rat primary hepatocytes hetero-spheroids underlaid with endothelial cells was achieved on the plasma-etched circular domains, exposing the base substrate surface. PEG-g-pyridine copolymer was then synthesized for long-term cell culture, which is expected to have long stability, to overcome deterioration of polymer modified surface at room temperature and atmospheric conditions when single-point adsorption was employed.

AB - Micropatterned PEGylated substrates with two-dimensional arrays of plasma-etched circular domains were prepared by coating of poly(ethylene glycol) (PEG) based polymer on the substrate, followed by plasma-etching through a metal mask pattern with circular holes. The PEGylated region on the patterned substrate works to repel proteins, consequently, inhibits cell adhesion. Then the micro-patterning of bovine articular chondrocytes or rat primary hepatocytes hetero-spheroids underlaid with endothelial cells was achieved on the plasma-etched circular domains, exposing the base substrate surface. PEG-g-pyridine copolymer was then synthesized for long-term cell culture, which is expected to have long stability, to overcome deterioration of polymer modified surface at room temperature and atmospheric conditions when single-point adsorption was employed.

KW - Bio-nanointerface

KW - Cell patterning

KW - Chondrocyte

KW - Hepatocyte

KW - Spheroid

KW - Tissue engineering

UR - http://www.scopus.com/inward/record.url?scp=33645557265&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:33645557265

SP - 5145

EP - 5146

T2 - 54th SPSJ Symposium on Macromolecules

Y2 - 20 September 2005 through 22 September 2005

ER -

Control of cell behavior on the polymer functionalized biointerface

Abstract

Conference

Keywords

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