Enhanced Biocompatibility in Biostable Poly(carbonate)urethane
- 13 April 2004
- journal article
- research article
- Published by Wiley in Macromolecular Bioscience
- Vol. 4 (4), 464-470
- https://doi.org/10.1002/mabi.200300082
Abstract
Summary: In this work, we synthesized two MDI-based polyurethanes, including a poly(ether)urethane (PEU) and a poly(carbonate)urethane (PCU), by using different soft segments, poly(tetramethylene oxide) and poly(hexyl, ethyl)carbonate diol ( ∼ 2 000). We demonstrated that, in addition to the enhanced biostability of PCU over PEU, the biological performances of PCU in vitro were also improved in general. These included, better cellular attachment and proliferation, less platelet activation, as well as reduced monocyte activation. The unusual wide-ranging enhancement in biocompatibility for PCU was believed to be related to the larger micro-phase separation in PCU (∼25 nm) that caused distinct protein adsorption on the surface. The total number of adherent monocytes (nonactivated and activated) on the bare sample surfaces, albumin pre-adsorbed sample surfaces, and fibrinogen pre-adsorbed sample surfaces.Keywords
This publication has 20 references indexed in Scilit:
- Rapid fibroblast adhesion to 27nm high polymer demixed nano-topographyBiomaterials, 2003
- Assessment of PEO/PTMO multiblock copolymer/segmented polyurethane blends as coating materials for urinary catheters: in vitro bacterial adhesion and encrustation behaviorBiomaterials, 2002
- Increasing Fibroblast Response to Materials Using Nanotopography: Morphological and Genetic Measurements of Cell Response to 13-nm-High Polymer Demixed IslandsExperimental Cell Research, 2002
- Microphase separated structure and protein adsorption of polyurethanes with butadiene soft segmentEuropean Polymer Journal, 1999
- Enhanced biostability by using butenediol as chain extenders in the synthesis of poly(ether)urethanesPolymer Degradation and Stability, 1999
- Effect of hard segment chemistry and strain on the stability of polyurethanes: in vivo biostabilityBiomaterials, 1993
- Texturing of polymer surfaces at the cellular levelBiomaterials, 1991
- Foreign‐body giant cells and polyurethane biostability: In vivo correlation of cell adhesion and surface crackingJournal of Biomedical Materials Research, 1991
- Human monocyte/macrophage activation and interleukin 1 generation by biomedical polymersJournal of Biomedical Materials Research, 1988
- Surface properties and blood compatibility of polyurethaneureasBiomaterials, 1986