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The Effect Of Size On Ag Nanosphere Toxicity In Macrophage Cell Models And Lung Epithelial Cell Lines Is Dependent On Particle Dissolution, Raymond F. Hamilton, Sarah Buckingham, Andrij Holian
The Effect Of Size On Ag Nanosphere Toxicity In Macrophage Cell Models And Lung Epithelial Cell Lines Is Dependent On Particle Dissolution, Raymond F. Hamilton, Sarah Buckingham, Andrij Holian
Biomedical and Pharmaceutical Sciences Faculty Publications
Silver (Ag) nanomaterials are increasingly used in a variety of commercial applications. This study examined the effect of size (20 and 110 nm) and surface stabilization (citrate and PVP coatings) on toxicity, particle uptake and NLRP3 inflammasome activation in a variety of macrophage and epithelial cell lines. The results indicated that smaller Ag (20 nm), regardless of coating, were more toxic in both cell types and most active in the THP-1 macrophages. TEM imaging demonstrated that 20 nm Ag nanospheres dissolved more rapidly than 110 nm Ag nanospheres in acidic phagolysosomes consistent with Ag ion mediated toxicity. In addition, there …