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1. Enhanced study design for acute inhalation studies with hydrophobic surface-treated particles to determine toxicological effects including suffocation.

Author

Bruer GG, Creutzenberg O, Janssen P, Krueger N, Nolde J, Ramazanoglu M, Schaudien D, Schuster TB, Stintz M, Warfving N, Wessely B, and Weber K

Subjects

Animals, Male, Aluminum Oxide toxicity, Rats, Particle Size, Rats, Wistar, Surface Properties, Particulate Matter toxicity, Hydrophobic and Hydrophilic Interactions, Toxicity Tests, Acute, Silicon Dioxide toxicity, Silicon Dioxide chemistry, Lung drug effects, Lung pathology, Inhalation Exposure

Abstract

High concentrations of low-density particles may cause effects in acute inhalation toxicity studies which can be easily underestimated or misinterpreted following strictly the OECD TG 436, i.e., limited parameters as mortality and gross lesions will be evaluated only. Seven particle types (synthetic amorphous silica (SAS) HMDZ-SAS, silica gel, pyrogenic SAS, and precipitated SAS, calcium carbonate, aluminum oxide pyrogenic alumina, organic red pigment) were chosen at the highest technically feasible concentration of approximately 500 mg/m 3 for acute inhalation studies with an expanded endpoint setup. Therefore additional parameters and a thorough histopathological evaluation of an extensive set of organs, including the respiratory tract emphasizing the nasal cavities were added. Six Crl:WI rats per study were exposed for four hours from which three animals were sacrificed after 24 hours and three animals after 14 days. HMDZ-SAS caused early death in all animals due to blockage of the nasal passages caused by its hydrophobicity. For all other Si-containing compounds, histology revealed minor inflammatory and reactive lesions in lungs after 24 hours that were still present after 14 days, except in silica gel-treated animals. After 14 days, for pyrogenic SAS, precipitated SAS, and pyrogenic alumina, granulomas formed in the BALT and lung-associated lymph nodes. In contrast, the calcium carbonate induced almost no findings, and the red pigment (also tested for the additional dose of 1000 mg/m 3 ) stuck partially to the nasal mucosa without causing pathological damage and partly entered the lungs without showing any adverse effects. The results of the present study highlight the advantage of improving the rather simple study design of acute inhalation studies by implementing an extended study design., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Authors reports financial support was provided by SASFORREACH, a consortium of the producers of synthetic amorphous silica. Each author certifies that their freedom to design, conduct, interpret, and publish research was not compromised by the sponsor. The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Pulmonary toxicity in rats following inhalation exposure to poorly soluble particles of low toxicity: Testing at excessive concentrations overwhelming lung clearance?

Author

Arts J, Kellert M, Krueger N, Nolde J, and Schuster T

Subjects

Animals, Humans, Particle Size, Rats, Risk Assessment, Inhalation Exposure, Lung

Abstract

Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. We are working at companies that produce synthetic amorphous silica.

Published

2020