Effect of Graphene Oxide and Silver Nanoparticle Hybrid Composite on IAcinetobacter baumannii/I Strains, Regarding Antibiotic Resistance and Prevalence of AMP-C Production

Background and Objectives: Growing antibiotic resistance among bacteria is a global issue that is becoming harder and more expensive to solve. Traditional treatment options are becoming less effective, causing more fatal outcomes of nosocomial infections. Since the development of new antibiotics has...

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Veröffentlicht in:Medicina (Kaunas, Lithuania) Lithuania), 2023-10, Vol.59 (10)
Hauptverfasser: Lozovskis, Povilas, Skrodenienė, Erika, Jankauskaitė, Virginija, Vitkauskienė, Astra
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Sprache:eng
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Zusammenfassung:Background and Objectives: Growing antibiotic resistance among bacteria is a global issue that is becoming harder and more expensive to solve. Traditional treatment options are becoming less effective, causing more fatal outcomes of nosocomial infections. Since the development of new antibiotics has stagnated in the last decade, a novel approach is needed. Materials and Methods: Graphene-based materials are being developed and tested for various applications, and the medical field is no exception. We tested 98 clinical A. baumannii strains for antibiotic resistance, AMP-C production and the effectiveness of a graphene oxide and silver nanoparticle hybrid nanocomposite. The disc diffusion method was used to determine antibiotic susceptibility results. Antibiotic discs containing cefotaxime, cloxacillin and clavulanate were used to detect AMP-C production. The effectiveness of the GO–Ag hybrid nanocomposite was determined by counting colony forming units (CFUs) after a suspension of A. baumannii and the GO–Ag hybrid nanocomposite was plated on MH agar and incubated overnight to grow colonies. Results: In our research, we found that A. baumannii strains are resistant to the majority of commonly used antibiotics. Antibiotic resistance levels and AMP-C production can be factors, indicating the better effectiveness of the graphene oxide and silver nanoparticle hybrid nanocomposite. Conclusions: In this study, a GO–Ag hybrid nanocomposite was shown to have the potential to fight even the most problematic bacteria like A. baumannii.
ISSN:1648-9144
DOI:10.3390/medicina59101819