Intrinsically antibacterial materials based on polymeric derivatives of eugenol for biomedical applications.
- González García, Ramón
- Rojo, Luis
- Barcenilla, José M.
- Blazquez, Blanca
- San Román, Julio
ISSN: 1525-7797
Año de publicación: 2008
Volumen: 9
Número: 9
Páginas: 2530-2535
Tipo: Artículo
beta Ver similares en nube de resultadosOtras publicaciones en: Biomacromolecules
Resumen
Infections are the most common cause of biomaterial implant failure representing a constant challenge to the more widespread application of medical implants. This study reports on the preparation and characterization of novel hydrophilic copolymeric systems provided with antibacterial properties coming from eugenol residues anchored to the macromolecular chains. Thus, high conversion copolymers were prepared from the hydrophilic monomer 2-hydroxyethyl methacrylate (HEMA) and different eugenol monomeric derivatives, eugenyl methacrylate (EgMA) and ethoxyeugenyl methacrylate (EEgMA), by bulk polymerization reaction. Thermal evaluation revealed glass transition temperature values in the range 95−58 °C following the order HEMA-co-EgMA > PHEMA > HEMA-co-EEgMA and a clear increase in thermal stability with the presence of any eugenyl monomer in the system. In vitro wettability studies showed a reduction of water sorption capacity and surface free energy values with increasing the content of eugenol residues in the copolymer. The antimicrobial activity of copolymeric discs was evaluated by determining their capacity to reduce or inhibit colony formation by different bacterial species. All eugenyl containing materials showed bacteria growth inhibition, this one being higher for the EEgMA derivative copolymers.