Gold nanoparticle aerosols for rodent inhalation and translocation studies

Möller, Winfried; Gibson, Neil; Geiser, Marianne; Pokhrel, Suman; Wenk, Alexander; Takenaka, Shinji; Schmid, Otmar; Bulgheroni, Antonio; Simonelli, Federica; Kozempel, Jan; Holzwarth, Uwe; Wigge, Christoph; Eigeldinger-Berthou, Sylvie; Mädler, Lutz; Kreyling, Wolfgang G. (2013). Gold nanoparticle aerosols for rodent inhalation and translocation studies. Journal of Nanoparticle Research, 15(4), p. 1574. Springer 10.1007/s11051-013-1574-9

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The intensive use of nano-sized particles in many different applications necessitates studies on their risk assessment as there are still open questions on their safe handling and utilization. For reliable risk assessment, the interaction of nanoparticles (NP) with biological systems after various routes of exposure needs to be investigated using well-characterized NP. We report here on the generation of gold-NP (Au-NP) aerosols for inhalation studies with the spark ignition technique, and their characterization in terms of chemical composition, physical structure, morphology, and specific surface area, and on interaction with lung tissues and lung cells after 1 h inhalation by mice. The originally generated agglomerated Au-NP were converted into compact spherical Au-NP by thermal annealing at 600 °C, providing particles of similar mass, but different size and specific surface area. Since there are currently no translocation data available on inhaled Au-NP in the 10–50 nm diameter range, the emphasis was to generate NP as small as 20 nm for inhalation in rodents. For anticipated in vivo systemic translocation and dosimetry analyses, radiolabeled Au-NP were created by proton irradiating the gold electrodes of the spark generator, thus forming gamma ray emitting 195Au with 186 days half-life, allowing long-term biokinetic studies. The dissolution rate of 195Au from the NP was below detection limits. The highly concentrated, polydisperse Au-NP aerosol (1–2 × 107 NP/cm3) proved to be constant over several hours in terms of its count median mobility diameter, its geometric standard deviation and number concentration. After collection on filters particles can be re-suspended and used for instillation or ingestion studies.

Item Type:

Journal Article (Original Article)


04 Faculty of Medicine > Pre-clinic Human Medicine > Institute of Anatomy > Cell Biology
04 Faculty of Medicine > Pre-clinic Human Medicine > Institute of Anatomy

UniBE Contributor:

Geiser, Marianne; Wigge, Christoph and Eigeldinger, Sylvie


500 Science > 530 Physics
600 Technology > 610 Medicine & health








Marianne Geiser Kamber

Date Deposited:

02 May 2014 08:49

Last Modified:

28 Nov 2020 02:24

Publisher DOI:



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