Synthesis of silver nanoparticles using Emilia sonchifolia plant for treatment of bloodstream diseases caused by Escherichia coli

银纳米粒子 Zeta电位 大肠杆菌 最低杀菌浓度 最小抑制浓度 硝酸银 抗菌活性 表面等离子共振 化学 结晶度 核化学 微生物学 肉汤微量稀释 细菌 抗菌剂 粒径 纳米颗粒 纳米技术 材料科学 生物 生物化学 物理化学 基因 遗传学 结晶学
作者
Sunil T. Galatage,Arehalli S. Manjappa,Popat Kumbhar,Ahmad Salawi,Fahad Y. Sabei,Adnan M. Siddiqui,Rajanigandha V. Patil,Vaibhav S. Akole,Roshani D. Powar,Mahesh N. Kagale
出处
期刊:Annales pharmaceutiques françaises [Elsevier BV]
卷期号:81 (4): 653-666 被引量:1
标识
DOI:10.1016/j.pharma.2022.12.007
摘要

Among infectious diseases, bloodstream infection (BSI) caused by gram-negative bacteria (E. coli) is the leading cause of death worldwide. However, the bacteria have produced resistance to many of these antibiotics. Thus, the present study aimed to develop silver nanoparticles (AgNPs) loaded with Emilia sonchifolia (ES) extract (ES-AgNPs) to treat BSI efficiently.AgNPs were synthesized by reduction of silver nitrate (AgNO3) solution by ES extract. Furthermore, these ES-AgNPs were characterized for particle size and zeta potential, crystallinity by powder X-ray diffraction (P-XRD) technique, in vitro antibacterial activity, time-kill assay, film bio adhesion, and fluorescence assay.Surface plasmon resonance (SPR) has been used to confirm the formation of AgNPs by seeing a shift in colour to dark-brown. The ES-AgNPs displayed a mean particle size of 137±3nm (PDI of 0.168±0.02) and zeta potential of 18.2±0.8mV. Furthermore, according to P-XRD results, the developed AgNPs are highly crystalline. The ES-AgNPs showed effective antibacterial action against E. coli with minimum inhibitory concentrations (MIC) and minimum bactericidal concentrations (MBC) of 0.4±0.02μg/mL and 0.8±0.03μg/mL, respectively. In addition, ES-AgNPs inhibited biofilm formation and bacterial adhesion in a dose-dependent manner with 100% inhibition obtained in 48h at MBC.Present research work revealed that the ES-AgNPs obtained by green synthesis holds a prominent antibacterial activity in the treatment of BSIs caused by E. coli and they may be used as a competent substitute for current treatments. However, further, in vivo antibacterial studies are required to establish its efficacy in the treatment of BSIs.

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