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Title:
In vitro biodistribution of silver nanoparticles in isolated perfused porcine skin flaps
Date:
11/2012
Link to Journal Abstract
Abstract:
Nanomaterials increasingly are playing a role in society for uses ranging from biomedicine to microelectronics; however, pharmacokinetic studies, which will be necessary for human health risk assessments, are limited. Currently the most widely used nanoparticle in consumer products is silver (Ag). The objective of the present study was to quantify the local biodistribution of two types of Ag nanoparticles, Ag-citrate and Ag-silica, in the isolated perfused porcine skin flap (IPPSF). IPPSFs were perfused for 4?h with 0.84?µg ml–1 Ag-citrate or 0.48?µg ml–1 Ag-silica followed by a 4-h perfusion with media only during a washout phase. Arterial and venous concentrations of Ag were measured in the media by inductively coupled plasma optical emission spectrometry (ICP-OES). Venous concentrations of Ag for both types of nanoparticles were best fit with a two compartment model. The normalized volumes of distribution estimated from the noncompartmental analysis of the venous concentrations indicated distribution of Ag greater than the vascular space; however, because total Ag was measured, the extravascular distribution could be attributed to diffusion of Ag ions. The estimated clearance for both types of Ag nanoparticles was 1?ml min–1, which was equal to the flap perfusion rate, indicating no detectable elimination of Ag from the system. Four hours after infusion of the Ag nanoparticles, the recovery of Ag in the venous effluent was 90?±?5.0% and 87?±?22 % of the infused Ag for Ag-citrate and Ag-silica, respectively.
Non-technical Summary:
The objective of this study was to quantify the local biodistribution of two types of Ag nanoparticles, Ag-citrate and Ag-silica, in the isolated perfused porcine skin flap (IPPSF). Arterial and venous concentrations of Ag were measured in the media by inductively coupled plasma optical emission spectrometry (ICP-OES). Venous concentrations of Ag for both types of nanoparticles were best fit with a two compartment model.
Content Emphasis
Peer Reviewed Journal Article
Exposure Or Hazard Target
Mammalian
Exposure Pathway
Dermal/Mucous Membrane
Method Of Study
In Vitro
Paper Type
Exposure
Particle Type
Metal
Production Method
Engineered
Risk Exposure Group
General Population
Target Audience
Technical Research
Citation:
Journal of Applied Toxicology, 32(11): 913-919 (November 2012)
Publication:
Journal of Applied Toxicology
Author:
Leavens TL, Monteiro-Riviere NA, Inman AO, Brooks JD, Oldenburg SJ, Riviere JE
Volume:
32
Number:
11
Pages:
913-919
Last updated on October 22, 2012
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This work is supported in part by the Nanoscale Science and Engineering Initiative of the National Science Foundation
under NSF Award Number EEC-0118007.
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