Hortensia Reyes-Blas scite author profile

Hortensia Reyes-Blas

3Publications

5Citation Statements Received

102Citation Statements Given

How they've been cited

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156

Affiliations

Universidad Autónoma de Ciudad Juárez

Publications

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O-carboxymethyl chitosan/gelatin/silver-copper hydroxyapatite composite films with enhanced antibacterial and wound healing properties

et al. 2022

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Wound dressing composite films of O-carboxymethyl chitosan (OCMC) and gelatin were prepared and mixed with hydroxyapatite (HA) composited with Silver (Ag) and Copper (Cu) at different concentrations. The chemical, thermal, morphological, and biological properties of the composite films were studied. The analysis by FTIR confirmed the presence of interactions between gelatin and OCMC, and at the same time, the polymer matrix interactions with Ag-Cu/HA complex. The inclusion of nanoparticle to the composite was associated with an improvement of the thermal stability, morphological roughness, a 9–12% more hydrophobic behavior (composite C1, C5, and C8), increase in antibacterial activity from 23.2 to 33.1% for gram negative bacteria and from 37.28 to 40.59% for gram positive bacteria, and with a cell viability greater than 100% for 24 and 72 h. The films obtained can serve as a wound healing dressing and regenerating biomaterial.

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Comparative Study of the Antibacterial, Biodegradable, and Biocompatibility Properties of Composite and Bi-Layer Films of Chitosan/Gelatin Coated with Silver Particles

et al. 2023

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The dressings are materials that can improve the wound-healing process in patients with medical issues. Polymeric films are frequently used as dressings with multiple biological properties. Chitosan and gelatin are the most used polymers in tissue regeneration processes. There are usually several configurations of films for dressings, among which the composite (mixture of two or more materials) and layered ones stand out (layers). This study analyzed the antibacterial, degradable, and biocompatible properties of chitosan and gelatin films in 2 configurations, composite and bilayer, composite. In addition, a silver coating was added to enhance the antibacterial properties of both configurations. After the study, it was found that the bilayer films have a higher antibacterial activity than the composite films, having inhibition halos between 23% and 78% in Gram-negative bacteria. In addition, the bilayer films increased the fibroblast cell proliferation process, reaching up to 192% cell viability after 48 h of incubation. On the other hand, composite films have greater stability since they are thicker, with 276 µm, 243.8 µm, and 239 µm compared to 236 µm, 233 µm, and 219 µm thick for bilayer films; and a low degradation rate compared to bilayer films.

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Uso de Biomateriales Funcionalizados con Moléculas Bioactivas en la Ingeniería Biomédica

Reyes-Blas

Olivas–Armendáriz

Martel-Estrada

et al.

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El artículo expone la importancia del uso de moléculas bioactivas para la funcionalización de biomateriales. Por esta razón, se realizó una revisión de investigaciones actuales y relevantes en diversos buscadores de datos, incluyendo los diferentes tipos de materiales y moléculas bioactivas utilizadas para elaborar biomateriales funcionalizados, con énfasis en los procesos y sus propiedades. Se encontró que el proceso de funcionalización o modificación de la su- perficie expande el camino para adaptar al biomaterial de acuerdo al entorno fisiológico de las células vivas. De esta manera, el proceso mejora la estructura y las funciones de los tejidos y órganos diseñados. Existen una variedad de métodos y moléculas bioactivas disponibles para la funcionalización de los biomateriales, las cuales dependen de la manera en las que las células o tejidos se regeneran. Entre los diferentes materiales para la fabricación de bioma- teriales, las biomoléculas como las proteínas, lípidos, carbohidratos, entre otros, son una de las opciones más utili- zadas debido a la similitud de estas con los sistemas biológicos del cuerpo humano. Finalmente, el artículo también integra algunas de las más prometedoras aplicaciones de moléculas bioactivas incorporadas a los biomateriales.

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