Particle size dependent deposition and pulmonary inflammation after short-term inhalation of silver nanoparticles

Braakhuis, Hedwig; Gosens, Ilse; Krystek, Petra; Boere, John; Cassee, Flemming R.; Fokkens, Paul; Post, Jan Andries; Loveren, Henk Van; Park, Margriet V. D. Z.

doi:10.1186/s12989-014-0049-1

Cited by 176 publications

(127 citation statements)

References 49 publications

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“…(Braakhuis et al, 2014;Silva et al, 2006;Sung et al, 2009). Despite the staggering diversity in AgNP-induced toxicological effects, the first step in toxin action is common, i.e., biological absorption and distribution of exogenous chemicals in the organisms.…”

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confidence: 99%

Brain‐targeted distribution and high retention of silver by chronic intranasal instillation of silver nanoparticles and ions in Sprague–Dawley rats

Wen

Yang

et al. 2015

J of Applied Toxicology

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The wide applications of silver nanoparticles (AgNPs) have been concerned regarding their unintentional toxicities. Different exposure modes may cause distinct accumulation, retention and elimination profiles, which are closely related with their toxicities. Unlike silver accumulation profiles through other regular administration modes, the biodistribution, accumulation and elimination of AgNPs by intranasal instillation are not fully understood. This study conducted intranasal instillation of polyvinylpyrrolidone-coated AgNPs in neonatal Sprague-Dawley rats at doses of 1 and 0.1 mg kg À1 day À1 for 4 and 12 weeks, respectively. The 4-week recovery was also designed after the 12-week exposure. Silver concentrations in the main tissues or organs were periodically monitored. Parallel exposures using silver ion were performed for the comparative studies. No physiological alterations were observed in AgNP exposures. In comparison, 1 mg kg À1 day À1 silver ions decreased body weight gain and caused mortality of 18.2%, showing ionic silver had a relatively higher toxicity than AgNPs. A relatively higher silver accumulation was observed in silver ion groups than AgNP groups. The silver ion release could not fully explain silver accumulation in AgNP exposures, showing silver distribution caused by particulate silver occurred in vivo. The highest silver concentration was in the liver at week 4, while it shifted to the brain after a 12-week exposure. Dose-related silver accumulation occurred for both AgNP and silver ion groups. The time course revealed a uniquely high concentration and retention of brain silver, implying chronic intranasal instillation caused brain-targeted silver accumulation. These findings provided substantial evidence on the potential neuronal threat from the intranasal administration of AgNPs or silver colloid-based products.

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confidence: 99%

Brain‐targeted distribution and high retention of silver by chronic intranasal instillation of silver nanoparticles and ions in Sprague–Dawley rats

Wen

Yang

et al. 2015

J of Applied Toxicology

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“…First, AgNPs were not accumulated or maintained as nanoparticle (NP) speciation because AgNPs can be dissolved in the earthworm coelomic fluids [3]. Next, AgNPs may have been dissolved by the ethanol or phosphate [28,29] used during the TEM sample fixation process. Lastly, we cannot exclude the possibility that the AgNPs were present, but we were unable to find them.…”

Section: Levels Of Agnps Transferred To E Andrei and L Sokamensismentioning

confidence: 99%

Trophic transfer of silver nanoparticles from earthworms disrupts the locomotion of springtails (Collembola)

Kwak

2016

Journal of Hazardous Materials

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“…Although tissue studies are less commonly applied, pathology and apoptosis research was occasionally used in these systems. Additionally, lipid peroxidation (LPO) and glutathione production were used to reveal oxidative stress [75].…”

Section: Pulmonary Systemmentioning

confidence: 99%

Toxicity assessment of nanoparticles in various systems and organs

Yang

Qin

Zeng

et al. 2017

Nanotechnology Reviews

183

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Abstract:In the past decades, much attention has been paid to toxicity assessment of nanoparticles prior to clinical and biological applications. While in vitro studies have been increasing constantly, in vivo studies of nanoparticles have not established a unified system until now. Predictive models and validated standard methods are imperative. This review summarizes the current progress in approaches assessing nanotoxicity in main systems, including the hepatic and renal, gastrointestinal, pulmonary, cardiovascular, nervous, and immune systems. Histopathological studies and specific functional examinations in each system are elucidated. Related injury mechanisms are also discussed.

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Particle size dependent deposition and pulmonary inflammation after short-term inhalation of silver nanoparticles

Cited by 176 publications

References 49 publications

Brain‐targeted distribution and high retention of silver by chronic intranasal instillation of silver nanoparticles and ions in Sprague–Dawley rats

Brain‐targeted distribution and high retention of silver by chronic intranasal instillation of silver nanoparticles and ions in Sprague–Dawley rats

Trophic transfer of silver nanoparticles from earthworms disrupts the locomotion of springtails (Collembola)

Toxicity assessment of nanoparticles in various systems and organs

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