• Title of article

    Antibacterial and antibiofilm effects of microwaveassisted biologically synthesized zinc nanoparticles

  • Author/Authors

    Shakibaie ، Mojtaba - Kerman University of Medical Sciences, Kerman University of Medical Sciences , Alipour-Esmaeili-Anari ، Fatemeh - Kerman University of Medical Sciences , Adeli-Sardou ، Mahboubeh - Kerman University of Medical Sciences, Institute of Science, Graduate University of Advanced Technology , Ameri ، Atefeh - Institute of Neuropharmacology, Kerman University of Medical Sciences , Doostmohammadi ، Mohsen - Institute of Neuropharmacology, Kerman University of Medical Sciences , Forootanfar ، Hamid - Kerman University of Medical Sciences, Institute of Neuropharmacology, Kerman University of Medical Sciences , Ameri ، Alieh - Kerman University of Medical Sciences

  • Pages
    9
  • From page
    223
  • To page
    231
  • Abstract
    Objective(s): The present study aimed to investigate the antibacterial and antibiofilm potential of the nonoxidized form of zinc nanoparticles (Zn NPs) prepared by a ‘green approach’ using the Lavandula vera extract with microwave irradiation.Materials and Methods: After synthesis of Zn NPs, the microdilution and disk diffusion methods was applied for antimicrobial evaluation followed by antibiofilm activity measurement using crystal violet colorimetric assay procedure.Results: The obtained results demonstrated the production of spherical Zn NPs within the size range of 3080 nanometers. The measured minimum inhibitory concentration of the Zn NPs and ZnSO4 against the biofilmproducing and clinically isolated pathogens of Staphylococcus aureus, Pseudomonas aeruginosa, and Proteus mirabilis was estimated to be more than 2560 µg/ml. In addition, a nonsignificant increase (P gt;0.05) was observed in the antibacterial activity against methicillinresistant S. aureus after the addition of the Zn NPs (500 µg/disk) to the antibiotic discs containing tobramycin, erythromycin, tetracycline, azithromycin, and kanamycin compared to ZnSO4. On the other hand, the Zn NPs significantly decreased the biofilm formation of P. mirabilis compared to P. aeruginosa (P lt;0.05). Biofilm formation by S. aureus also reduced to 68.3±2.1% in the presence of the Zn NPs (640 µg/ml), which was considered significant compared to P. mirabilis and P. aeruginosa at the same concentration (P lt;0.05). Conclusion: To sum up, the biofilm inhibitory activity of Zn NPs at higher concentrations than 160 µg/ml against S. aureus and P. mirabilis was more significant compared to the inhibitory effects of ZnSO4. However, further investigations are required in order to determine the antibacterial and antibiofilm mechanism of Zn NPs.
  • Keywords
    Antibacterial activity , zinc , Nanoparticle , Nanobiotechnology , Green synthesis
  • Journal title
    Nanomedicine Journal
  • Serial Year
    2019
  • Journal title
    Nanomedicine Journal
  • Record number

    2474016