NaCl: for the safer in vivo use of antibacterial silver based nanoparticles

Liu, Mingzhuo; Zhang, Huiqing; Song, Xiangwei; Wei, Cheng; Xiong, Zeng; Yu, Fen; Li, Chen; Ai, Fanrong; Guo, Guang-hua; Wang, Xiaolei

doi:10.2147/ijn.s153168

Cited by 8 publications

(4 citation statements)

References 30 publications

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“…The components in the media can interact with the AgNPs and change their physicochemical properties and activity; hence, the AgNP-media interactions must be assessed to confirm NP stability before evaluating their activity [58]. Subjecting AgNPs to solutions with higher salt (NaCl) concentration, not only causes NP aggregation, but also a change in size and biological activity [59]. To improve on AgNP stability, biopolymers, such as GA and chitosan, were used as stabilizing agents; this led to plant-mediated synthesis of NPs with enhanced stability, biocompatibility and biological activity.…”

Section: Stability Of Ga-agnpsmentioning

confidence: 99%

Broad Spectrum Anti-Bacterial Activity and Non-Selective Toxicity of Gum Arabic Silver Nanoparticles

Fadaka

Meyer

Ahmed

et al. 2022

IJMS

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Silver nanoparticles (AgNPs) are the most commercialized nanomaterials and presumed to be biocompatible based on the biological effects of the bulk material. However, their physico-chemical properties differ significantly to the bulk materials and are associated with unique biological properties. The study investigated the antimicrobial and cytotoxicity effects of AgNPs synthesized using gum arabic (GA), sodium borohydride (NaBH4), and their combination as reducing agents. The AgNPs were characterized using ultraviolet-visible spectrophotometry (UV-Vis), dynamic light scattering (DLS), transmission electron microscopy (TEM), and Fourier-transform infrared spectroscopy (FT-IR). The anti-bacterial activity was assessed using agar well diffusion and microdilution assays, and the cytotoxicity effects on Caco-2, HT-29 and KMST-6 cells using MTT assay. The GA-synthesized AgNPs (GA-AgNPs) demonstrated higher bactericidal activity against all bacteria, and non-selective cytotoxicity towards normal and cancer cells. AgNPs reduced by NaBH4 (C-AgNPs) and the combination of GA and NaBH4 (GAC-AgNPs) had insignificant anti-bacterial activity and cytotoxicity at ≥50 µg/mL. The study showed that despite the notion that AgNPs are safe and biocompatible, their toxicity cannot be overruled and that their toxicity can be channeled by using biocompatible polymers, thereby providing a therapeutic window at concentrations that are least harmful to mammalian cells but toxic to bacteria.

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Section: Stability Of Ga-agnpsmentioning

confidence: 99%

Broad Spectrum Anti-Bacterial Activity and Non-Selective Toxicity of Gum Arabic Silver Nanoparticles

Fadaka

Meyer

Ahmed

et al. 2022

IJMS

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“…Nevertheless, it should be noticed that some authors also describe an insignificant reduction of E. coli growth induced by medium supplementation with NaCl (Liu et al 2018) or even disagree on the lower efficacy of AgCl on E. coli K12 compared to Ag + ). Thus, Ag3PO4 and AgCl cannot be considered as strictly active and inactive against bacterial cells, respectively.…”

Section: Characterization Of the Agno3 Solutionsmentioning

confidence: 99%

Modulation by surroundings of the antibacterial efficiency of silver in water environments

et al. 2019

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Silver is a usual antibacterial agent acting in water solutions. However, quantitative data fail to anticipate the silver availability for interactions with bacterial cells and the resulting fluctuations of the inhibitory and bactericidal concentrations according to silver amount and chemical composition of the liquid environment. We investigated whether and how three different biological media modify silver ions (Ag + ) and nanoparticles (AgNPs), and alter their antibacterial performances against Escherichia coli K12. The predominant silver species highly differed in terms of nature and quantity according to the medium. Bioavailability was reduced to a few percent of the initial Ag + amount in physiological serum (NaCl) and lysogeny-broth (LB), while it was higher than 67% in minimal phosphate medium (M63G). To reach similar antibacterial performances, Ag + concentrations were 100 times lower in M63G than in the other media. Even with a silver concentration of 10 -1 M, 53% of the bacterial cells living after 3h in LB were undamaged and revealed normal metabolic activity, while the cells were almost completely eliminated in M63G. Effects of AgNPs were also strongly but differently modulated by the medium's components. AgNPs revealed higher antibacterial effect than Ag + in NaCl and M63G with similar silver content, thus providing an argument to assert that AgNPs act through a combination of release of Ag + and intake of AgNPs. Our results finally provide guidelines about the Ag + dose that must be released from coatings to reach efficient performances according to the surrounding medium and the framework of the study.

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“…However, there is uncertainty regarding antibacterial activities of Au-NPs in the physiological environment or in vivo models. A study was later conducted on the possibility of controlling the metabolism of Au-NPs in the animal model [112]. Zeta potential of Au-NPs with different salts, such as PBS, NaCl, K 2 HPO 4 , and KCl, were measured and found to be lowest with NaCl and reduced cytotoxicity of Au-NPs was observed with the addition of 4 × NaCl (group according to dilution).…”

Section: Other Antimicrobial Nanoformulationsmentioning

confidence: 99%

“…The other approaches in LPS sequestering were demonstrated with the help of binding with high-density lipoprotein (HDL) like nanoparticles, in a study by Foit and Thaxton (2016). HDL is involved in detoxification of LPS and a similar phenomenon was implemented in the Ameliorated inflammation in the heart, liver, spleen, lungs, and kidney [112] development of the nanosystem. Citrate stabilized colloidal gold nanoparticle (Au NP) was used as a scaffold and was functionalized with apolipoprotein A1 (apo A-I).…”

Section: Nanotechnology and Anti-inflammatory Agentsmentioning

confidence: 99%

Advances in sepsis diagnosis and management: a paradigm shift towards nanotechnology

2021

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Sepsis, a dysregulated immune response due to life-threatening organ dysfunction, caused by drug-resistant pathogens, is a major global health threat contributing to high disease burden. Clinical outcomes in sepsis depend on timely diagnosis and appropriate early therapeutic intervention. There is a growing interest in the evaluation of nanotechnology-based solutions for sepsis management due to the inherent and unique properties of these nano-sized systems. This review presents recent advancements in nanotechnology-based solutions for sepsis diagnosis and management. Development of nanosensors based on electrochemical, immunological or magnetic principals provide highly sensitive, selective and rapid detection of sepsis biomarkers such as procalcitonin and C-reactive protein and are reviewed extensively. Nanoparticle-based drug delivery of antibiotics in sepsis models have shown promising results in combating drug resistance. Surface functionalization with antimicrobial peptides further enhances efficacy by targeting pathogens or specific microenvironments. Various strategies in nanoformulations have demonstrated the ability to deliver antibiotics and anti-inflammatory agents, simultaneously, have been reviewed. The critical role of nanoformulations of other adjuvant therapies including antioxidant, antitoxins and extracorporeal blood purification in sepsis management are also highlighted. Nanodiagnostics and nanotherapeutics in sepsis have enormous potential and provide new perspectives in sepsis management, supported by promising future biomedical applications included in the review.

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NaCl: for the safer in vivo use of antibacterial silver based nanoparticles

Cited by 8 publications

References 30 publications

Broad Spectrum Anti-Bacterial Activity and Non-Selective Toxicity of Gum Arabic Silver Nanoparticles

Broad Spectrum Anti-Bacterial Activity and Non-Selective Toxicity of Gum Arabic Silver Nanoparticles

Modulation by surroundings of the antibacterial efficiency of silver in water environments

Advances in sepsis diagnosis and management: a paradigm shift towards nanotechnology

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