Evaluation of the Toxicity of Silver/Silica and Titanium Dioxide Particles in Mammalian Cells

Pittol, Michele; Tomacheski, Daiane; Simões, Douglas Naue; Ribeiro, Vanda Ferreira; Santana, Ruth Marlene Campomanes

doi:10.1590/1678-4324-2018160667

Cited by 9 publications

(3 citation statements)

References 64 publications

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“…Of these, Pittol et al, for example, observed no significant reduction in viability after the exposure of mouse fibroblast cells (L929) to TiO 2 particles, even at the highest concentrations of 10,000 μg/g. The authors attributed the non-toxic effect of the particles to their agglomeration tendency, composition, and crystalline form, together with their interaction in culture media [ 61 ]. Similarly, Rosłon et al observed only a slight effect of TiO 2 NPs on the viability of mouse fibroblasts (L929)—however, at a notably lower range of tested concentrations (10–200 μg/mL) [ 62 ].…”

Section: Resultsmentioning

confidence: 99%

Behaviour of Titanium Dioxide Particles in Artificial Body Fluids and Human Blood Plasma

Korábková

Kašpárková

Jasenská

et al. 2021

IJMS

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The growing application of materials containing TiO2 particles has led to an increased risk of human exposure, while a gap in knowledge about the possible adverse effects of TiO2 still exists. In this work, TiO2 particles of rutile, anatase, and their commercial mixture were exposed to various environments, including simulated gastric fluids and human blood plasma (both representing in vivo conditions), and media used in in vitro experiments. Simulated body fluids of different compositions, ionic strengths, and pH were used, and the impact of the absence or presence of chosen enzymes was investigated. The physicochemical properties and agglomeration of TiO2 in these media were determined. The time dependent agglomeration of TiO2 related to the type of TiO2, and mainly to the type and composition of the environment that was observed. The presence of enzymes either prevented or promoted TiO2 agglomeration. TiO2 was also observed to exhibit concentration-dependent cytotoxicity. This knowledge about TiO2 behavior in all the abovementioned environments is critical when TiO2 safety is considered, especially with respect to the significant impact of the presence of proteins and size-related cytotoxicity.

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Section: Resultsmentioning

confidence: 99%

Behaviour of Titanium Dioxide Particles in Artificial Body Fluids and Human Blood Plasma

Korábková

Kašpárková

Jasenská

et al. 2021

IJMS

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“…No toxic or genotoxic effects were identified in fibroblast cultures treated with nanoparticles coated with silica (SiO 2 ) [ 56 ]. In a comparative study, Verkhovskii et al reported that highly stable AgNPs coated with PVA and sodium carboxymethyl cellulose (CMC) are safe for dermal fibroblasts, while nanoparticles coated with sodium dodecyl sulfate and sodium oleate proved cytotoxic [ 57 ].…”

Section: Toxicity Of Silver Nanoparticlesmentioning

confidence: 99%

An Updated Review on Silver Nanoparticles in Biomedicine

et al. 2020

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Silver nanoparticles (AgNPs) represent one of the most explored categories of nanomaterials for new and improved biomaterials and biotechnologies, with impressive use in the pharmaceutical and cosmetic industry, anti-infective therapy and wound care, food and the textile industry. Their extensive and versatile applicability relies on the genuine and easy-tunable properties of nanosilver, including remarkable physicochemical behavior, exceptional antimicrobial efficiency, anti-inflammatory action and antitumor activity. Besides commercially available and clinically safe AgNPs-based products, a substantial number of recent studies assessed the applicability of nanosilver as therapeutic agents in augmented and alternative strategies for cancer therapy, sensing and diagnosis platforms, restorative and regenerative biomaterials. Given the beneficial interactions of AgNPs with living structures and their nontoxic effects on healthy human cells, they represent an accurate candidate for various biomedical products. In the present review, the most important and recent applications of AgNPs in biomedical products and biomedicine are considered.

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“…Even if they possess remarkable therapeutic effects and intrinsic biocompatibility, relentless efforts were done to maximize the bioactivity of AgNPs and improve their stability. In this respect, a wide variety of capping agents and surface coatings were successfully evaluated, including inorganic or organic, natural or synthetic materials [ 25 , 26 , 27 , 28 ].…”

Section: ⧉ Introductionmentioning

confidence: 99%

Biodistribution of essential oil-conjugated silver nanoparticles

Gherasim

Grumezescu²,

Mogoşanu³

et al. 2021

Rom J Morphol Embryol

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The beneficial synergy between antimicrobial silver nanoparticles (AgNPs) and essential oils (EOs), with therapeutic effects that have been acknowledged and explored for a long time, opens the way towards developing new and promising alternatives for anti-infective therapies. With the aim to improve the cytocompatibility and stability of AgNPs and to overcome the volatilization of EOs, AgNPs conjugated with sage (Salvia officinalis) and cinnamon (Cinnamomum aromaticum) EOs were obtained in our study. The synthesis process was realized either by classical or ultrasound-assisted chemical reduction. Compositional and microstructural characterization of the as-obtained Ag@EO NPs was performed by X-ray diffraction (XRD), thermogravimetric analysis (TGA), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The biodistribution of Ag@EO NPs was evaluated on a mouse animal model.

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Evaluation of the Toxicity of Silver/Silica and Titanium Dioxide Particles in Mammalian Cells

Cited by 9 publications

References 64 publications

Behaviour of Titanium Dioxide Particles in Artificial Body Fluids and Human Blood Plasma

Behaviour of Titanium Dioxide Particles in Artificial Body Fluids and Human Blood Plasma

An Updated Review on Silver Nanoparticles in Biomedicine

Biodistribution of essential oil-conjugated silver nanoparticles

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