Phyto-Functionalized Silver Nanoparticles Derived from Conifer Bark Extracts and Evaluation of Their Antimicrobial and Cytogenotoxic Effects

Macovei, Irina; Luca, Simon Vlad; Skalicka-Woźniak, Krystyna; Săcărescu, Liviu; Pascariu, Petronela; Ghilan, Alina; Doroftei, Florica; Ursu, Elena-Laura; Rîmbu, C.; Horhogea, C.; Lungu, Cristina; Vochița, Gabriela; Panainte, Alina Diana; Nechita, Constantin; Corciova, Maria Andreia; Miron, Anca

doi:10.3390/molecules27010217

Cited by 30 publications

(23 citation statements)

References 77 publications

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“…The FTIR spectrum of the extract shows a broad absorption peak at 3452 cm −1 , which was related to the stretching vibration of -OH groups found in alcohols and phenols and to the N-H stretching from amides. The peaks at 2924 cm −1 and 2854 cm −1 corresponded to C-H stretching and bending vibrations of CH 3 and CH 2 (alkanes) [ 19 , 28 ]. The bands detected at 1736 cm −1 and 1624 cm −1 were connected to the vibration of C=O from amides and carboxylic groups, and -C=C- aromatic rings, respectively [ 38 ].…”

Section: Resultsmentioning

confidence: 99%

“…The theoretical concentration of AgNPs in the colloidal synthesis mixture was calculated using a mathematical method [ 18 , 19 ]. Firstly, the average number of atoms per nanoparticle (N) was determined through Equation (1):

where π = 3.14, ρ = 10.5 g/cm 3 (density of face centered cubic silver), D = 133.5 × 10 −7 cm (average diameter of nanoparticles), M = 107.868 g/mol (atomic mass of silver) and N A = 6.023 × 10 23 mol −1 (Avogadro’s number).…”

Section: Methodsmentioning

confidence: 99%

“…Secondly, the molar concentration of nanoparticles in the resulting colloidal mixture ( C ) could be calculated only by considering that all silver ions (Ag + ) were entirely converted to AgNPs in the biosynthesis process. Equation (2) was applied for the determination of C :

where N T = total amount of Ag atoms added as AgNO 3 (3.0 mM = 0.003 M), N = average number of atoms per nanoparticle, V = reaction volume (0.22 L) and N A = Avogadro’s number [ 18 , 19 ].…”

Section: Methodsmentioning

confidence: 99%

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Green Synthesis and Characterization of Silver Nanoparticles Using a Lythrum salicaria Extract and In Vitro Exploration of Their Biological Activities

Corciovă

Mircea

Burlec

et al. 2022

Life

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This research describes an eco-friendly green route for the synthesis of AgNPs using an aqueous extract of Lythrum salicaria. Taguchi design was used to optimize the synthesis method, taking into account various working conditions. The optimum parameters were established using a 3 mM AgNO3 concentration, a 1:9 extract:AgNO3 volume ratio, a pH value of 8, 60 ℃ temperature, and 180 min reaction time. The synthesized AgNPs were characterized using UV-Vis and FTIR spectroscopy, and TEM and EDX analysis. The SPR band at 410 nm, as well as the functional groups of biomolecules identified by FTIR and the EDX signals at ~3 keV, confirmed the synthesis of spherical AgNPs. The average AgNPs size was determined to be 40 nm, through TEM, and the zeta potential was −19.62 mV. The antimicrobial assay showed inhibition against S. aureus and C. albicans. Moreover, the results regarding the inhibition of lipoxygenase and of peroxyl radical-mediated hemolysis assays were promising and justify further antioxidant studies.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

where N T = total amount of Ag atoms added as AgNO 3 (3.0 mM = 0.003 M), N = average number of atoms per nanoparticle, V = reaction volume (0.22 L) and N A = Avogadro’s number [ 18 , 19 ].…”

Section: Methodsmentioning

confidence: 99%

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Green Synthesis and Characterization of Silver Nanoparticles Using a Lythrum salicaria Extract and In Vitro Exploration of Their Biological Activities

Corciovă

Mircea

Burlec

et al. 2022

Life

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“…The absence of antimicrobial activity in electrospun membrane co-PEI-1 containing only zeolite L NPs in its structure indicates that zeolite itself does not possess antimicrobial activity, 56 but its properties (negatively charged structure) allow loading with metal ions such as Ag + , which is known for its antimicrobial potential, 57 aspects that were confirmed when testing electrospun membranes co-PEI-2 and co-PEI-3.…”

Section: Structural Characterization Of the Electrospun Membranesmentioning

confidence: 90%

Electrospun Copoly(ether imide) Nanofibers Doped with Silver-Loaded Zeolite as Materials for Biomedical Applications

Hamciuc¹,

Vlad‐Bubulac²,

Bercea³

et al. 2022

ACS Appl. Polym. Mater.

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One of the most versatile techniques to fabricate micro-/nanoscaled nonwoven fibrous materials is represented by electrospinning. Due to its easy availability and versatility, increasing efforts worldwide have focused on the preparation of natural and/or synthetic composite membranes that eventually mimic the artificial extracellular matrix. Electrospun composite membranes based on copoly(ether imide)s derived from Jeffamine, and additionally doped with silverloaded zeolite L nanoparticles (ze-Ag + ), have been successfully produced in the present work via a solution electrospinning process. The morphology of the developed electrospun membranes based on pure copoly(ether imide)s (co-PEI-0) and doped copoly(ether imide)s (co-PEI-0/zeolite or co-PEI-0/silver-containing zeolite L nanoparticles) was investigated by scanning electron microscopy (SEM), while the homogeneous distribution of the nanoparticles within the electrospun fibers has been introspected by means of energy dispersive X-ray spectroscopy (EDX). Young's modulus was reduced from 0.677 MPa for pure co-PEI electrospun fibers to 0.221 MPa when silver-loaded zeolite L nanoparticles were attached to the electrospun composite membranes. Antimicrobial activity of the products demonstrated that the samples containing silver-exchanged zeolite L nanoparticles present an inhibitory effect against both Gram-negative (Escherichia coli ATCC 25922) and Gram-positive (Staphylococcus aureus ATCC 25923) bacteria. Furthermore, a biocompatibility check by studying the cell viability and cell morphology of the developed composite membranes revealed no cytotoxic activity.

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“…The factors influencing the biological activity of NPs include size distribution, morphology, surface charge, surface chemistry and capping agents ( Cheon et al, 2019 ; Fahimirad et al, 2019 ). AgNPs synthesized using extracts of Foeniculum vulgare ( Talank et al, 2022 ), Picea abies and Pinus nigra ( Macovei et al, 2022 ), Zataria multiflora ( Barabadi et al, 2021 ), Punica granatum ( Swilam and Nematallah, 2020 ), Lysiloma acapulcensis ( Garibo et al, 2020 ), Gardenia resinifera ( Parit et al, 2020 ), Brassica oleracea ( Ansar et al, 2020 ), Piper betle ( Shah et al, 2019 ), Prosopis juliflora ( Arya et al, 2019 ), Rumex hastatus ( Rashid et al, 2019 ), Galega officinalis ( Manosalva et al, 2019 ) and Terminalia mantaly ( Majoumouo et al, 2019 ) have been known to exhibit enhanced antimicrobial activity against P. aeruginosa and S. aureus . Biofilm inhibition by AgNPs synthesized using extracts of Zataria multiflora ( Barabadi et al, 2021 ), Piper betle ( Shah et al, 2019 ) Rhodiola rosea ( Singh et al, 2018a ), and Cannabis sativa ( Singh et al, 2018b ) have been reported in P. aeruginosa and S. aureus .…”

Section: Introductionmentioning

confidence: 99%

Synergistic and antibiofilm potential of Curcuma aromatica derived silver nanoparticles in combination with antibiotics against multidrug-resistant pathogens

Tawre

Shiledar²,

Satpute³

et al. 2022

Front. Chem.

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Hospital acquired infections caused due to ESKAPE pathogens pose a challenge for treatment due to their growing antimicrobial resistance. Curcuma aromatica (CA) is traditionally known for its antibacterial, wound healing and anti-inflammatory properties. The present study highlights the biogenic synthesis of silver nanoparticles (CAAgNPs) capped and stabilized by the compounds from CA rhizome extract, also further demonstrating their antibacterial, antibiofilm and synergistic effects against multidrug-resistant (MDR) pathogens. CAAgNPs were synthesized using aqueous rhizome extract of CA (5 mg/ml) and AgNO3 (0.8 mM) incubated at 60°C up to 144 h. UV-vis spectroscopy, field emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), energy dispersive spectroscopy (EDS) and X-ray diffraction (XRD) revealed CAAgNPs with characteristic peak at 430 nm, 13 ± 5 nm size of spherical shape, showing presence of silver and crystalline nature, respectively. Dynamic light scattering (DLS) and zeta potential confirmed their monodispersed nature with average diameter of 77.88 ± 48.60 nm and stability. Fourier transform infrared spectroscopic (FTIR) analysis demonstrated the presence of phenolic -OH and carbonyl groups possibly involved in the reduction and stabilization of CAAgNPs. The minimum inhibitory concentrations (MICs), minimum bactericidal concentrations (MBCs) and minimum biofilm inhibitory concentrations (MBICs) of CAAgNPs against Pseudomonas aeruginosa, NCIM 5029 and PAW1, and, Staphylococcus aureus, NCIM 5021 and S8 were in range from 8 to 128 μg/ml. Almost 50% disruption of pre-formed biofilms at concentrations 8–1,024 μg/ml was observed. Fluorescence microscopy and FESEM analysis confirmed cell death and disruption of pre-formed biofilms of P. aeruginosa PAW1 and S. aureus S8. Checkerboard assay demonstrated the synergistic effect of CAAgNPs (0.125–4 μg/ml) in combination with various antibiotics (0.063–1,024 μg/ml) against planktonic and biofilm forms of P. aeruginosa PAW1. The study confirms the antibacterial and antibiofilm activity of CAAgNPs alone and in combination with antibiotics against MDR pathogens, thus, reducing the dose as well as toxicity of both. CAAgNPs have the potential to be used in wound dressings and ointments, and to improve the performances of medical devices and surgical implants. In vivo toxicity of CAAgNPs however needs to be tested further using mice models.

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Phyto-Functionalized Silver Nanoparticles Derived from Conifer Bark Extracts and Evaluation of Their Antimicrobial and Cytogenotoxic Effects

Cited by 30 publications

References 77 publications

Green Synthesis and Characterization of Silver Nanoparticles Using a Lythrum salicaria Extract and In Vitro Exploration of Their Biological Activities

Green Synthesis and Characterization of Silver Nanoparticles Using a Lythrum salicaria Extract and In Vitro Exploration of Their Biological Activities

Electrospun Copoly(ether imide) Nanofibers Doped with Silver-Loaded Zeolite as Materials for Biomedical Applications

Synergistic and antibiofilm potential of Curcuma aromatica derived silver nanoparticles in combination with antibiotics against multidrug-resistant pathogens

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