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Волова, Т. Г.
Шумилова, А. А.
Шидловский, И. П.
Николаева, Е. Д.
Суковатый, А. Г.
Васильев, А. Д.
Шишацкая, Е. И.
2019-07-01T07:27:26Z
2019-07-01T07:27:26Z
2018-02
Волова, Т. Г. Antibacterial properties of films of cellulose composites with silver nanoparticles and antibiotics [Текст] / Т. Г. Волова, А. А. Шумилова, И. П. Шидловский, Е. Д. Николаева, А. Г. Суковатый, А. Д. Васильев, Е. И. Шишацкая // Polymer Testing. — 2018. — Т. 65.
01429418
https://www.sciencedirect.com/science/article/pii/S0142941817311248?via%3Dihub
https://elib.sfu-kras.ru/handle/2311/110953
The present study describes production of bacterial cellulose composites with silver nanoparticles and antibiotics and compares their properties. Bacterial cellulose (BC) composites synthesized in the culture of the strain of acetic acid bacterium Komagataeibacter xylinus VKPM B-12068 with silver nanoparticles, BC/AgNps, were produced hydrothermally, under different AgNO3 concentrations (0.0001, 0.001, and 0.01 M) in the reaction medium. The presence of silver in the BC/AgNp composites was confirmed by elemental analysis conducted using scanning electron microscopy with a system of X-ray spectral analysis. Analysis showed that the average atomic number of silver particles in composite samples depended on the concentration of AgNO3: as AgNO3 concentration in the reaction solution was increased, silver content in the composites increased from 0.044 to 0.37 mg/cm2. BC composites with amikacin and ceftriaxone were prepared by immersing dry BC films in solutions containing different concentrations of the antibiotics. The surface structure and properties and physicochemical and mechanical characteristics of composites were investigated using SEM, DSC, X-ray analysis, the system for measuring water contact angles, and electromechanical tensile testing machine. The disk-diffusion method and the shake-flask culture method used in this study showed that all experimental composites had pronounced antibacterial activity against E.coli, Ps. eruginosa, K. pneumoniae, and St. aureus, and the BC/antibiotic composites were more active than BC/AgNp ones; S. aureus was the most susceptible to the effect of BC composites. No potential cytotoxicity was detected in any of the BC/AgNp composites in the NIH 3T3 mouse fibroblast cell culture, in contrast to the BC/antibiotic composites. These results suggest that BC composites constructed in the present study hold promise as dressings for managing wounds, including contaminated ones.
bacterial cellulose
composites
silver nanoparticles
antibiotics
properties
antibacterial activity
Antibacterial properties of films of cellulose composites with silver nanoparticles and antibiotics
Journal Article
Journal Article Preprint
34.57.21
2019-07-01T07:27:26Z
10.1016/j.polymertesting.2017.10.023
Институт фундаментальной биологии и биотехнологии
Институт инженерной физики и радиоэлектроники
Кафедра медицинской биологии
Базовая кафедра биотехнологии
Базовая кафедра физики твердого тела и нанотехнологий
Polymer Testing
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