1. Surface modification of a polyhedral oligomeric silsesquioxane poly(carbonate-urea) urethane (POSS-PCU) nanocomposite polymer as a stent coating for enhanced capture of endothelial progenitor cells
- Author
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Natasha G, Debbie Goh, Jayakumar Rajadas, Jing Jye Lim, Swee-Hin Teoh, Yasmin Farhatnia, Reema Chawla, Mohammad S. Alavijeh, Aaron Tan, Andrey V. Malkovskiy, Brian G. Cousins, Achala de Mel, Alexander M. Seifalian, Michael R. Hamblin, Harvard University--MIT Division of Health Sciences and Technology, Hamblin, Michael R., and School of Chemical and Biomedical Engineering
- Subjects
Materials science ,Chemistry(all) ,Biocompatibility ,Polymers ,Stent coatings ,Polyurethanes ,Endothelial progenitor cell capture ,General Physics and Astronomy ,Nanotechnology ,Physics and Astronomy(all) ,engineering.material ,Regenerative medicine ,Article ,General Biochemistry, Genetics and Molecular Biology ,Nanocomposites ,Biomaterials ,chemistry.chemical_compound ,Materials Science(all) ,Coating ,Cell Adhesion ,Humans ,Organosilicon Compounds ,General Materials Science ,Cells, Cultured ,Endothelial Progenitor Cells ,Anti-CD34 antibody ,chemistry.chemical_classification ,Endothelialization ,Nanocomposite ,Biochemistry, Genetics and Molecular Biology(all) ,General Chemistry ,Polymer ,Silsesquioxane ,Engineering::Chemical engineering::Biochemical engineering [DRNTU] ,chemistry ,Covalent bond ,engineering ,Surface modification ,POSS-PCU - Abstract
An unmet need exists for the development of next-generation multifunctional nanocomposite materials for biomedical applications, particularly in the field of cardiovascular regenerative biology. Herein, we describe the preparation and characterization of a novel polyhedral oligomeric silsesquioxane poly(carbonate-urea) urethane (POSS-PCU) nanocomposite polymer with covalently attached anti-CD34 antibodies to enhance capture of circulating endothelial progenitor cells (EPC). This material may be used as a new coating for bare metal stents used after balloon angioplasty to improve re-endothelialization. Biophysical characterization techniques were used to assess POSS-PCU and its subsequent functionalization with anti-CD34 antibodies. Results indicated successful covalent attachment of anti-CD34 antibodies on the surface of POSS-PCU leading to an increased propensity for EPC capture, whilst maintaining in vitro biocompatibility and hemocompatibility. POSS-PCU has already been used in 3 first-in-man studies, as a bypass graft, lacrimal duct and a bioartificial trachea. We therefore postulate that its superior biocompatibility and unique biophysical properties would render it an ideal candidate for coating medical devices, with stents as a prime example. Taken together, anti-CD34 functionalized POSS-PCU could form the basis of a nano-inspired polymer platform for the next generation stent coatings. Published version
- Published
- 2013
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