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Acrylic polymer-grafted polypropylene sutures for covalent immobilization or reversible adsorption of vancomycin
ArticleAbstract: Glycidyl methacrylate (GMA) and acrylic acid (AAc) were separately grafted onto polypropylene (PP) mPalabras claves:acrylic acid, Antimicrobial surface, Device combo products, Glycidyl methacrylate, Graft copolymers, SutureAutores:Alvarez-Lorenzob C., Concheiro A., Emilio Bucio, García-Vargas M., González-Chomón C., Magariños B.Fuentes:scopusGrafting of N-vinyl caprolactam and methacrylic acid onto silicone rubber films for drug-eluting products
ArticleAbstract: Silicone rubber (SR), a material widely used in the biomedical field, was modified with stimuli-respPalabras claves:Biomedical Applications, Copolymers, Drug delivery systems, Stimuli-sensitive polymersAutores:Alvarez-Lorenzob C., Concheiro A., Emilio Bucio, Meléndez-Ortiz I.H.Fuentes:scopusNovel interpenetrating smart polymer networks grafted onto polypropylene by gamma radiation for loading and delivery of vancomycin
ArticleAbstract: Gamma radiation was used in every step of the synthesis of a sequential interpenetrating polymer netPalabras claves:Interpenetrating network (IPN), Smart medical devices, Stimuli-responsive drug release, Surface modified polypropylene, Vancomycin deliveryAutores:Alvarez-Lorenzob C., Concheiro A., Emilio Bucio, Muñoz-Muñoz F.D., Ruiz J.C.Fuentes:scopusRadiation grafting of poly(methyl methacrylate) and poly(vinylimidazole) onto polytetrafluoroethylene films and silver immobilization for antimicrobial performance
ArticleAbstract: Polytetrafluorethylene, PTFE, films were activated and modified via gamma-rays to graft, in two stepPalabras claves:Antimicrobial films, Organic-inorganic composites, Radiation-grafting, silver nanoparticlesAutores:Alvarez-Lorenzob C., Concheiro A., Emilio Bucio, Flores‐rojas G.G., López‐saucedo F., Magariños B.Fuentes:scopusRadiation-grafting of vinyl monomers separately onto polypropylene monofilament sutures
ArticleAbstract: N-isopropylacrylamide (NIPAAm), 2-hydroxyethylmethacrylate (HEMA) and N-vinylimidazole (NVIm) were gPalabras claves:HEMA, NIPAAm, NVIm, PP suture, Radiation-grafting, Stimuli-responsive polymersAutores:Alvarez-Lorenzob C., Concheiro A., Emilio Bucio, López‐saucedo F.Fuentes:scopusStimuli-responsive networks grafted onto polypropylene for the sustained delivery of NSAIDs
ArticleAbstract: Co-polymers of N-isopropyl acrylamide (NIPAAm) and N-(3-aminopropyl) methacrylamide hydrochloride (APalabras claves:Combination product, Drug-eluting device, N-(3-Aminopropyl) methacrylamide, N-Isopropyl acrylamide, PolypropyleneAutores:Alvarez-Lorenzob C., Concheiro A., Contreras-Garcia A., Emilio Bucio, Taboada C.Fuentes:scopusStimuli-responsive polymers for antimicrobial therapy: drug targeting, contact-killing surfaces and competitive release
ReviewAbstract: Polymers can be designed to modify their features as a function of the level and nature of the surroPalabras claves:Antibiofilm, antimicrobial drug delivery, contact-killing surfaces, intracellular infections, medical device, microorganism-triggered release, nanocarrierAutores:Alvarez-Lorenzob C., Concheiro A., Emilio Bucio, Garcia-Gonzalez C.A.Fuentes:scopusSurface functionalization of polypropylene devices with hemocompatible DMAAm and NIPAAm grafts for norfloxacin sustained release
ArticleAbstract: To improve the hemocompatibility and elution of antimicrobial agents for medical devices, N,N′-dimetPalabras claves:drug delivery, drug-eluting, hemolysis, medical device, N, N-isopropylacrylamiD.E., norfloxacin, N′-dimethylacrylamiD.E., polymer grafted surfaces, polypropylene films, thrombogenicity, γ-Ray irradiationAutores:Alvarez-Lorenzob C., Concheiro A., Contreras-Garcia A., Emilio BucioFuentes:scopus