Biocompatibility of Poly(carbonate urethane)s with Various Degrees of Nanophase Separation

Nanophase separation has been suggested to influence the biological performance of polyurethane. In a previous work (Macromol. Biosci. 2004, 4, 891), six different 4,4′‐diphenylmethane diisocyanate (MDI)‐based poly(carbonate urethane)s (PCUs) that exhibited various degrees of nanophase separation we...

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Published in:Macromolecular bioscience 2005-03, Vol.5 (3), p.246-253
Main Authors: Hsu, Shan-hui, Kao, Yu-Chih
Format: Article
Language:English
Subjects:
Applied sciences
Bacillus subtilis - drug effects
bacterial adhesion
Biocompatible Materials - isolation & purification
Biocompatible Materials - pharmacology
Biological properties
Blood Cells - drug effects
Blood Physiological Phenomena - drug effects
Exact sciences and technology
Humans
monocyte activation
nanophase separation
Nanotechnology
Organic polymers
phase separation
Physicochemistry of polymers
platelet activation
platelet adhesion
poly(carbonate urethane)
Polyurethanes - isolation & purification
Polyurethanes - pharmacology
Properties and characterization
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description Nanophase separation has been suggested to influence the biological performance of polyurethane. In a previous work (Macromol. Biosci. 2004, 4, 891), six different 4,4′‐diphenylmethane diisocyanate (MDI)‐based poly(carbonate urethane)s (PCUs) that exhibited various degrees of nanophase separation were synthesized and characterized. In the present work, these PCUs were used as a model system to study the effect of nanometric structures on the biocompatibility of polyurethane. Human blood platelet activation, monocyte activation, protein adsorption, and bacterial adhesion on PCU were investigated in vitro. It was found that human blood platelets as well as monocytes were less activated on the PCU surfaces with a greater degree of nanophase separation in general. This phenomenon was closely associated with the lower ratio of human fibrinogen/albumin competitively adsorbed on these surfaces. Bacterial adhesion was also inhibited in some nanophase‐separated PCUs. The morphology of a platelet on a PCU studied here.
doi_str_mv 10.1002/mabi.200400163
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subjects Applied sciences
Bacillus subtilis - drug effects
bacterial adhesion
Biocompatible Materials - isolation & purification
Biocompatible Materials - pharmacology
Biological properties
Blood Cells - drug effects
Blood Physiological Phenomena - drug effects
Exact sciences and technology
Humans
monocyte activation
nanophase separation
Nanotechnology
Organic polymers
phase separation
Physicochemistry of polymers
platelet activation
platelet adhesion
poly(carbonate urethane)
Polyurethanes - isolation & purification
Polyurethanes - pharmacology
Properties and characterization
title Biocompatibility of Poly(carbonate urethane)s with Various Degrees of Nanophase Separation
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