Your search keyword '"Bancos, Simona"' showing total 2 results

1. Evaluating the potential of gold, silver, and silica nanoparticles to saturate mononuclear phagocytic system tissues under repeat dosing conditions.

Author

Weaver, James L., Tobin, Grainne A., Ingle, Taylor, Bancos, Simona, Stevens, David, Rouse, Rodney, Howard, Kristina E., Goodwin, David, Knapton, Alan, Xiaohong Li, Shea, Katherine, Stewart, Sharron, Lin Xu, Goering, Peter L., Qin Zhang, Howard, Paul C., Collins, Jessie, Khan, Saeed, Sung, Kidon, and Tyner, Katherine M.

Subjects

PHAGOCYTES, NANOPARTICLES, PHARMACEUTICAL industry, BIOACCUMULATION, LABORATORY mice, HISTOPATHOLOGY

Abstract

Background: As nanoparticles (NPs) become more prevalent in the pharmaceutical industry, questions have arisen from both industry and regulatory stakeholders about the long term effects of these materials. This study was designed to evaluate whether gold (10 nm), silver (50 nm), or silica (10 nm) nanoparticles administered intravenously to mice for up to 8 weeks at doses known to be sub-toxic (non-toxic at single acute or repeat dosing levels) and clinically relevant could produce significant bioaccumulation in liver and spleen macrophages. Results: Repeated dosing with gold, silver, and silica nanoparticles did not saturate bioaccumulation in liver or spleen macrophages. While no toxicity was observed with gold and silver nanoparticles throughout the 8 week experiment, some effects including histopathological and serum chemistry changes were observed with silica nanoparticles starting at week 3. No major changes in the splenocyte population were observed during the study for any of the nanoparticles tested. Conclusions: The clinical impact of these changes is unclear but suggests that the mononuclear phagocytic system is able to handle repeated doses of nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2017

2. Evaluating the effect of assay preparation on the uptake of gold nanoparticles by RAW264.7 cells.

Author

Bancos, Simona and Tyner, Katherine M.

Abstract

Background: Cell culture conditions can greatly influence the results of nanoparticle (NP) uptake assays. In this study, 10 nm gold nanoparticles (AuNPs) and RAW 264.7 macrophages were used as a model system, while instrumental neutron activation analysis (NAA) was used as the elemental analysis technique to determine AuNP levels produced by the various culturing conditions. Static plate-based and insert-based culture conditions were compared with a dynamic suspension culture to evaluate the conditions’ effect on the rate and extent of AuNP uptake. Results: The results indicate that a dynamic culturing condition allows for the greatest NP uptake (approximately 3-5 times over the adherent conditions), whereas the plate-based assays have the initial highest rate of NP incorporation. Conclusions: These data highlight the importance of judiciously choosing the assay conditions prior to evaluating NP uptake. [ABSTRACT FROM AUTHOR]

Published

2014