| Title | Layer-by-layer self-assembly of chitosan and poly(γ-glutamic acid) into polyelectrolyte complexes |
| Publication Type | Journal Article |
| 2011 |
| Authors | Antunes, JC, Pereira, CL, Molinos, M, Ferreira-da-Silva, F, Dessi, M, Gloria, A, Ambrosio, L, Gonca̧lves, RM, Barbosa, MA |
| Journal | BiomacromoleculesBiomacromolecules |
| Volume | 12 |
| Issue | 12 |
| Pagination | 4183 - 4195 |
| Date Published | 2011/// |
| 15257797 (ISSN) |
| Amino acids, Anionic polymers, article, Atomic force microscopy, Atomic spectroscopy, Biocompatible Materials, Biocompatible polysaccharides, Biomaterials, Biomedical applications, Cell-biomaterial interactions, chemical interaction, chitosan, controlled study, Cytotoxicity, Drug delivery, drug delivery system, Drug Delivery Systems, Electrolytes, ellipsometry, enzyme activity, Extracellular, Fourier transform infrared spectroscopy, Glutamic acid, immunogenicity, infrared spectroscopy, Layer by layer self assembly, Medical applications, microenvironment, Microenvironments, Microscopy, Atomic Force, Model surface, Models, Molecular, Multi-layered, Multi-layered films, Multilayers, nanofilm, Nanostructured Films, polyanion, Polyanions, Polycations, polyelectrolyte, Polyelectrolyte complexes, Polyelectrolyte multilayer, Polyelectrolytes, Polyethylenes, polyglutamic acid, Polymers, priority journal, Programmed control systems, Quartz, quartz crystal microbalance, Quartz crystal microbalance with dissipation, Self assembly, Tissue, Tissue engineering, Tissue regeneration, Ultrathin films, Viscoelastic Substances, Zeta potential, Zeta potential measurements |
| Chitosan (Ch) is a nontoxic and biocompatible polysaccharide extensively used in biomedical applications. Ch, as a polycation, can be combined with anionic polymers by layer-bylayer (LbL) self-assembly, giving rise to multilayered complexed architectures. These structures can be used in tissue engineering strategies, as drug delivery systems, or artificial matrices mimicking the extracellular microenvironment. In this work, Ch was combined with poly(γ-glutamic acid) (γ-PGA). γ-PGA is a polyanion, which was microbially produced, and is known for its low immunogenic reaction and low cytotoxicity. Multilayered ultrathin films were assembled by LbL, with a maximum of six layers. The interaction between both polymers was analyzed by: ellipsometry, quartz crystal microbalance with dissipation, Fourier transform infrared spectroscopy, atomic force microscopy, and zeta potential measurements. Ch/γ-PGA polyelectrolyte multilayers (PEMs) revealed no cytotoxicity according to ISO 10993-5. Overall, this study demonstrates that Ch can interact electrostatically with γ-PGA forming multilayered films. Furthermore, this study provides a comprehensive characterization of Ch/γ-PGA PEM structures, elucidating the contribution of each layer for the nanostructured films. These model surfaces can be useful substrates to study cell-biomaterial interactions in tissue regeneration. © 2011 American Chemical Society. |
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