RESUMO
In this work, electrospinning was used for the preparation of composite nanofibrous scaffold, of polyvinyl alcohol (PVA), silk fibroin (SF) extract of Bombyx mori cocoons and silver nanoparticles (Ag NPs), as a substrate for bone tissue engineering. The PVA pristine was prepared at a concentration of 10% wt. The composite nanofibers scaffolds of PVA was prepared with silk fibroin and silver nanoparticles, in relation of PVA: SF (90:10) (v/v) respectively. The formation and presence of AgNPs was confirmed by ultraviolet-visible spectroscopy (Uv-vis). The diameter distribution of the nanofibers was narrow by SEM using Image J software. The chemical composition was determined by FTIR spectra. The wettability was determined using water contact angle. The results showed the average nanofiber diameter of PVA10 pristine was 108.18 nm and to PVA10/SF/Ag NPs was 106.62 nm, no significant changes were noted in the mean diameter, but there were changes in its morphology. The average nanofiber diameter increase with the concentration of PVA at PVA15/SF/Ag NPs was 189.12 nm to PVA18/SF/Ag NPs was 224,23 nm. FTIR spectra indicated characteristic absorption peaks related to the chemical structure of PVA, fibroin and Ag NPs, it demonstrated good interactions between them, caused by strong intermolecular hydrogen bonds. The contact angle of the scaffolds PVA 10%wt decrease with the incorporation of fibroin and show hydrophilic characteristics. The achievements indicate the potential of the nanofibers of PVA15/SF/Ag NPs as a possible substitute for bone tissue engineering.Clinical Relevance-This establishes a possible substrate of PVA/SF/Ag NPs that exhibit desired properties such as porosity and high surface area to volume ratio for bone tissue engineering.
Assuntos
Osso e Ossos , Fibroínas , Nanopartículas Metálicas , Nanofibras , Engenharia Tecidual , Álcool de Polivinil , Prata , Alicerces TeciduaisRESUMO
Abstract In hospital environments, there are several problems related to Healthcare-Associated Infections (HAIs), contaminated hospital textiles, can contribute to the spread and transmission of (HAIs), due to retention of viruses and bacteria. The antibacterial metallic nanoparticles immersed in hospital textiles can allow reduction of microorganisms. This paper presents a technological surveillance of the principal properties of antibacterial nanotextiles to be used in hospital environments, based on international standards. Initially, the search equation was determined for "antibacterial" AND "nanoparticle." Subsequently, the main properties were selected, by means of a multiple authors' review. Afterwards, the properties were related to international standards. Finally, we present the results found associated to the materials used to develop nonwoven textiles, and their properties for hospital environments, the sizes of samples and also the equipment required for characterization.
Resumen En los ambientes hospitalarios, existen varios problemas relacionados con las infecciones asociadas a la atención de la salud (HAI, por sus siglas en inglés), los tejidos hospitalarios contaminados, pueden contribuir a la propagación y transmisión de los HAIs, debido a la retención de virus y bacterias. Las nanopartículas metálicas antibacterianas sumergidas en tejidos hospitalarios permiten reducir los microorganismos. Este documento presenta una vigilancia tecnológica de las principales propiedades del nanotextil antibacteriano para uso en ambientes hospitalarios, basados en estándares internacionales. Inicialmente, la ecuación de búsqueda se determinó "antibacteriano" Y "nanopartícula". Posteriormente, se seleccionaron las principales propiedades, mediante la revisión de diferentes autores. Luego, las propiedades se relacionaron con los estándares internacionales. Finalmente, se presentan los resultados encontrados asociados a los materiales utilizados para el desarrollo de materiales no tejidos y sus propiedades para ambientes hospitalarios, tamaños de muestras y también el equipo necesario para la caracterización.
Resumo Nos ambientes hospitaleiros, existem vários problemas relacionados com as infecções associadas à atenção da saúde (HAI), os tecidos hospitalários contaminados, podem contribuir à propagação e transmissão dos HAIs, devido à retenção de vírus e bactérias. As nano partículas metálicas antibacterianas submergidas em tecidos hospitalários permitem reduzir os microorganismos. Este documento apresenta uma vigilância tecnológica das principais propriedades do nano têxtil antibacteriano para uso em ambientes hospitalários, baseados em padrões internacionais. Inicialmente, a equação de busca determinou-se "antibacteriano" e "nano partícula". Posteriormente, selecionaram-se as principais propriedades, mediante a revisão de diferentes autores. Posteriormente, as propriedades relacionaram-se com os padrões internacionais. Finalmente, apresentam-se os resultados encontrados associados aos materiais utilizados para o desenvolvimento de tecidos não tecidos e suas propriedades para ambientes hospitaleiros, tamanhos de amostras e também a equipe necessária para a caracterização.
