Anti-biofouling properties of polymers with a carboxybetaine moiety

Sulumu Tada; Chika Inaba; Kazuya Mizukami; Shigeto Fujishita; Makoto Geminei-Ide; Hiromi Kitano; Akira Mochizuki; Masaru Tanaka; Takayuki Matsunaga

doi:10.1002/mabi.200800150

Anti-biofouling properties of polymers with a carboxybetaine moiety

Sulumu Tada, Chika Inaba, Kazuya Mizukami, Shigeto Fujishita, Makoto Geminei-Ide, Hiromi Kitano^*, Akira Mochizuki, Masaru Tanaka, Takayuki Matsunaga

^*Corresponding author for this work

Applied Chemistry

Research output: Contribution to journal › Article › peer-review

88 Scopus citations

Abstract

The resistance of random copolymers of BMA and CMB against biofouling was evaluated. The amount of proteins adsorbed onto the CMB copolymers was smaller than that onto other polymers (non-ionic polymers and copolymers of ordinary ionic monomers and BMA) and decreased with an increase in the content of CMB residues. Furthermore, there was a dramatic decrease in the number of cells (platelets and fibroblasts) that adhered to the CMB copolymers compared with that to other polymers. In contrast with this, CMB copolymers were slightly perturbative to both complement and coagulation systems. However, the overall results suggest that zwitterionic moieties are effective for making polymer materials biocompatible due to their excellent anti-biofouling property. A graph is presented.

Original language	English
Pages (from-to)	63-70
Number of pages	8
Journal	Macromolecular Bioscience
Volume	9
Issue number	1
DOIs	https://doi.org/10.1002/mabi.200800150
State	Published - 2009/01/09

ASJC Scopus subject areas

Biotechnology
Bioengineering
Biomaterials
Polymers and Plastics
Materials Chemistry

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abstract = "The resistance of random copolymers of BMA and CMB against biofouling was evaluated. The amount of proteins adsorbed onto the CMB copolymers was smaller than that onto other polymers (non-ionic polymers and copolymers of ordinary ionic monomers and BMA) and decreased with an increase in the content of CMB residues. Furthermore, there was a dramatic decrease in the number of cells (platelets and fibroblasts) that adhered to the CMB copolymers compared with that to other polymers. In contrast with this, CMB copolymers were slightly perturbative to both complement and coagulation systems. However, the overall results suggest that zwitterionic moieties are effective for making polymer materials biocompatible due to their excellent anti-biofouling property. A graph is presented.",

author = "Sulumu Tada and Chika Inaba and Kazuya Mizukami and Shigeto Fujishita and Makoto Geminei-Ide and Hiromi Kitano and Akira Mochizuki and Masaru Tanaka and Takayuki Matsunaga",

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T1 - Anti-biofouling properties of polymers with a carboxybetaine moiety

AU - Tada, Sulumu

AU - Inaba, Chika

AU - Mizukami, Kazuya

AU - Fujishita, Shigeto

AU - Geminei-Ide, Makoto

AU - Kitano, Hiromi

AU - Mochizuki, Akira

AU - Tanaka, Masaru

AU - Matsunaga, Takayuki

PY - 2009/1/9

Y1 - 2009/1/9

N2 - The resistance of random copolymers of BMA and CMB against biofouling was evaluated. The amount of proteins adsorbed onto the CMB copolymers was smaller than that onto other polymers (non-ionic polymers and copolymers of ordinary ionic monomers and BMA) and decreased with an increase in the content of CMB residues. Furthermore, there was a dramatic decrease in the number of cells (platelets and fibroblasts) that adhered to the CMB copolymers compared with that to other polymers. In contrast with this, CMB copolymers were slightly perturbative to both complement and coagulation systems. However, the overall results suggest that zwitterionic moieties are effective for making polymer materials biocompatible due to their excellent anti-biofouling property. A graph is presented.

AB - The resistance of random copolymers of BMA and CMB against biofouling was evaluated. The amount of proteins adsorbed onto the CMB copolymers was smaller than that onto other polymers (non-ionic polymers and copolymers of ordinary ionic monomers and BMA) and decreased with an increase in the content of CMB residues. Furthermore, there was a dramatic decrease in the number of cells (platelets and fibroblasts) that adhered to the CMB copolymers compared with that to other polymers. In contrast with this, CMB copolymers were slightly perturbative to both complement and coagulation systems. However, the overall results suggest that zwitterionic moieties are effective for making polymer materials biocompatible due to their excellent anti-biofouling property. A graph is presented.

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Anti-biofouling properties of polymers with a carboxybetaine moiety

Abstract

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