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Tissue distribution and acute toxicity of silver after single intravenous administration in mice: nano-specific and size-dependent effects

by Recordati, Camilla , Scanziani, Eugenio , Bianchessi, Silvia , Raggi, Andrea , Cella, Claudia , Aureli, Federica , Lenardi, Cristina , De Maglie, Marcella , Mattiello, Silvana , D’Amato, Marilena , Cubadda, Francesco , Milani, Paolo , Argentiere, Simona

in Acetates - administration & dosage / Acetates - pharmacokinetics / Acetates - toxicity / Acute toxicity / Animals / Antimicrobial agents / Biomedical and Life Sciences / Biomedicine / Blood / Brain - metabolism / Chemical and Drug Induced Liver Injury - etiology / Chemical and Drug Induced Liver Injury - metabolism / Chemical and Drug Induced Liver Injury - pathology / Citric Acid - chemistry / Coatings / Environmental Health / Gallbladder Diseases - chemically induced / Gallbladder Diseases - pathology / Hemorrhage - chemically induced / Hemorrhage - pathology / Histopathology / Injections, Intravenous / Intravenous administration / Investigations / Kidney - metabolism / Kidneys / Liver - drug effects / Liver - metabolism / Liver - pathology / Lung - metabolism / Male / Mice, Inbred ICR / Nanomaterials / Nanoparticles / Nanotechnology / Necrosis / Optical properties / Particle Size / Pharmacology/Toxicology / Pneumology/Respiratory System / Povidone - chemistry / Public Health / Risk Assessment / Silver / Silver - administration & dosage / Silver - blood / Silver - chemistry / Silver - pharmacokinetics / Silver - toxicity / Silver Compounds - administration & dosage / Silver Compounds - pharmacokinetics / Silver Compounds - toxicity / Spectrum analysis / Spleen - metabolism / Tissue Distribution / Toxicity

2016

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Tissue distribution and acute toxicity of silver after single intravenous administration in mice: nano-specific and size-dependent effects

2016

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Tissue distribution and acute toxicity of silver after single intravenous administration in mice: nano-specific and size-dependent effects

2016

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Journal Article

Tissue distribution and acute toxicity of silver after single intravenous administration in mice: nano-specific and size-dependent effects

Recordati, Camilla,

Scanziani, Eugenio,

Bianchessi, Silvia,

Raggi, Andrea,

Cella, Claudia,

Aureli, Federica,

Lenardi, Cristina,

De Maglie, Marcella,

Mattiello, Silvana,

D’Amato, Marilena,

Cubadda, Francesco,

Milani, Paolo,

Argentiere, Simona

2016

Overview

Background Silver nanoparticles (AgNPs) are an important class of nanomaterials used as antimicrobial agents for a wide range of medical and industrial applications. However toxicity of AgNPs and impact of their physicochemical characteristics in in vivo models still need to be comprehensively characterized. The aim of this study was to investigate the effect of size and coating on tissue distribution and toxicity of AgNPs after intravenous administration in mice, and compare the results with those obtained after silver acetate administration. Methods Male CD-1(ICR) mice were intravenously injected with AgNPs of different sizes (10 nm, 40 nm, 100 nm), citrate-or polyvinylpyrrolidone-coated, at a single dose of 10 mg/kg bw. An equivalent dose of silver ions was administered as silver acetate. Mice were euthanized 24 h after the treatment, and silver quantification by ICP-MS and histopathology were performed on spleen, liver, lungs, kidneys, brain, and blood. Results For all particle sizes, regardless of their coating, the highest silver concentrations were found in the spleen and liver, followed by lung, kidney, and brain. Silver concentrations were significantly higher in the spleen, lung, kidney, brain, and blood of mice treated with 10 nm AgNPs than those treated with larger particles. Relevant toxic effects (midzonal hepatocellular necrosis, gall bladder hemorrhage) were found in mice treated with 10 nm AgNPs, while in mice treated with 40 nm and 100 nm AgNPs lesions were milder or negligible, respectively. In mice treated with silver acetate, silver concentrations were significantly lower in the spleen and lung, and higher in the kidney than in mice treated with 10 nm AgNPs, and a different target organ of toxicity was identified (kidney). Conclusions Administration of the smallest (10 nm) nanoparticles resulted in enhanced silver tissue distribution and overt hepatobiliary toxicity compared to larger ones (40 and 100 nm), while coating had no relevant impact. Distinct patterns of tissue distribution and toxicity were observed after silver acetate administration. It is concluded that if AgNPs become systemically available, they behave differently from ionic silver, exerting distinct and size-dependent effects, strictly related to the nanoparticulate form.

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Publisher

BioMed Central,BioMed Central Ltd,Springer Nature B.V

Subject

Acetates - administration & dosage

/ Acetates - pharmacokinetics

/ Acetates - toxicity

/ Acute toxicity

/ Animals

/ Antimicrobial agents

/ Biomedical and Life Sciences