P. orbicularis aqueous extract protects human cells against UVB damage. This protective effect is through the modulation of DNA repair effectiveness.
Hydrogels obtained from combining different polymers are an interesting strategy for developing controlled release system platforms and tissue engineering scaffolds. In this study, the applicability of sodium alginate-g-(QCL-co-HEMA) hydrogels for these biomedical applications was evaluated. Hydrogels were synthesized by free-radical polymerization using a different concentration of the components. The hydrogels were characterized by Fourier transform-infrared spectroscopy, scanning electron microscopy, and a swelling degree. Betamethasone release as well as the in vitro cytocompatibility with chondrocytes and fibroblast cells were also evaluated. Scanning electron microscopy confirmed the porous surface morphology of the hydrogels in all cases. The swelling percent was determined at a different pH and was observed to be pH-sensitive. The controlled release behavior of betamethasone from the matrices was investigated in PBS media (pH = 7.4) and the drug was released in a controlled manner for up to 8 h. Human chondrocytes and fibroblasts were cultured on the hydrogels. The MTS assay showed that almost all hydrogels are cytocompatibles and an increase of proliferation in both cell types after one week of incubation was observed by the Live/Dead® assay. These results demonstrate that these hydrogels are attractive materials for pharmaceutical and biomedical applications due to their characteristics, their release kinetics, and biocompatibility.
Objetivo: Evaluar el efecto protector del extracto acuoso de Cymbopogon citratus (DC) Stapf, ante el daño inducido por las radiaciones UVC. Material y Métodos: Para evaluar si el extracto acuoso de C. citratus era capaz de inducir roturas de cadenas en el ADN, moléculas de plásmido pBluescript SK II fueron tratadas con diferentes concentraciones del extracto (0,01 - 4,0 mg/mL), en los tiempos de exposición: 30, 60 y 90 min. El efecto fotoprotector fue evaluado aplicando el extracto vegetal antes, durante, y después de la irradiación del ADN plasmídico con 200 J/m2 de UVC. La actividad enzimática de T4 endonucleasa V fue empleada para detectar formación de CPDs. Las formas superenrollada y relajada de las moléculas de plásmido fueron separadas electroforéticamente en gel de agarosa. Adicionalmente, se midió la transmitancia del extracto acuoso a la DO de 254 nm. Resultados: Ninguna de las concentraciones evaluadas resultó genotóxica con 30 min de tratamiento. Las concentraciones ≥ 2 mg/mL indujeron roturas de cadenas a los 90 min de incubación. El extracto de C. citratus a concentraciones ≥ 0,5 mg/mL protegió al ADN frente a las radiaciones UVC. Conclusiones: En nuestras condiciones experimentales, el extracto acuoso de C. citratus protege al ADN frente a la genotoxicidad inducida por la luz UVC, previniendo la generación de CPDs, pero no es capaz de eliminarlas una vez formadas.
Hydrogels obtained from the combination of different polymers are an interesting strategy for the development of controlled release system platforms and tissue engineering scaffolds. In this study, the applicability of sodium alginate-g-(QCL-co-HEMA) hydrogels for these biomedical applications was evaluated. Hydrogels were synthesized by free-radical polymerization using different concentration of the components. The hydrogels were characterized by Fourier transform infrared spectroscopy, scanning electron microscopy, and swelling degree; betamethasone release as well as the in vitro cytocompatibility with chondrocytes and fibroblast cells were also evaluated. Scanning electron microscopy confirmed the porous surface morphology of the hydrogels in all cases. The swelling percent was determined at different pH and was observed to be pH-sensitive. The controlled release behavior of betamethasone from the matrices was investigated in PBS media (pH = 7.4) and the drug was released in a controlled manner up to 8 h. Human chondrocytes and fibroblasts were cultured on the hydrogels. The MTS assay shown that almost all hydrogels are cytocompatibles and an increase the proliferation in both cell types after one week of incubation was observed by Live/Dead® assay. These results demonstrate that these hydrogels are attractive materials for pharmaceutical and biomedical applications due to their characteristics, their release kinetics and biocompatibility.
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