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Опубликовано 2010-03-25 Опубликовано на SciPeople2010-04-20 23:31:26 ЖурналSaratov Journal of Medical Scientific Research


Comparative study of antibacterial action of iron and copper nanoparticles on clinical Staphylococcus aureus strains
I.V. Babushkina, V.B. Borodulin, G.V. Korshunov, D.M. Puchinjan / Антон Киселев контактное лицо
I.V. Babushkina, V.B. Borodulin, G.V. Korshunov, D.M. Puchinjan Comparative study of antibacterial action of iron and copper nanoparticles on clinical Staphylococcus aureus strains // Saratov Journal of Medical Scientific Research, Vol. 6, Issue 1, 2010, pp. 11-14
Аннотация Research objective is to study antibacterial action of nanoparticles of iron and copper on polyantibiotically resistant clinical Staphylococcus aureus strains. Materials and methods include antibacterial action of nanoparticles of copper and iron on 10 Staphylococcus au¬reus strains, isolated from patients with purulent complications stayed in the in-patient department of traumatology and orthopedics. Solutions of powders of iron and copper have been prepared directly before the experiment in concentra¬tion from 0,001 to 1 mg/ml. it has been revealed that the influence of nanoparticles on growth of clinical strains and the intensity of antibacterial effect depends on the form of nanoparticles, their concentration and action time. concentration of 0,1 mg/ml and 1 mg/ ml of iron nanoparticles has provoked the decrease in quantity of microbe cells from 3 to 34 % (p <0,01). in smaller concentrations the reliable antibacterial effect has not been observed. Antibacterial activity of copper nanoparticles has been expressed in a wide range of concentrations from 0,001 mg/ml to 1 mg/ml, even during short-term action (30 minutes) it has provoked reduction of quantity of the microbe cells grown on the firm nutrient medium, 97-100 % in comparison with the control (p <0,001). in conclusion it is to point out that copper nanoparticles have more expressed inhibitory effect on growth of clini¬cal strains of golden staphylococcus than iron nanoparticle suspension. inhibition degree depends on superdispersed powder dosage and incubation period
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