Long-Term Pulmonary Responses of Three Laboratory Rodent Species to Subchronic Inhalation of Pigmentary Titanium Dioxide Particles

doi:10.1093/toxsci/70.1.86

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Toxicological Sciences 70, 86-97 (2002)
Copyright © 2002 by the Society of Toxicology

RESPIRATORY TOXICOLOGY

Long-Term Pulmonary Responses of Three Laboratory Rodent Species to Subchronic Inhalation of Pigmentary Titanium Dioxide Particles

Edilberto Bermudez^*^,1, James B. Mangum^*, Bahman Asgharian^*, Brian A. Wong^*, Edward E. Reverdy^*^,2, Derek B. Janszen^*^,3, Paul M. Hext, David B. Warheit and Jeffrey I. Everitt^*

^* CIIT Centers for Health Research, P.O. Box 12137, 6 Davis Drive, Research Triangle Park, North Carolina 27709-2137; Syngenta, Alderley Park, Macclesfield, Cheshire, SK104TJ, United Kingdom; DuPont Haskell Laboratories, Newark, Delaware 19714

Female mice, rats, and hamsters were exposed to 10, 50, or 250mg/m³ pigmentary titanium dioxide (p-TiO₂) particles for 6 hper day and 5 days per week for 13 weeks with recovery groupsheld for an additional 4, 13, 26, or 52 weeks postexposure (46weeks for the p-TiO₂-exposed hamsters). At each time point p-TiO₂burdens in the lung and lymph nodes and selected lung responseswere examined. The responses studied were chosen to assess avariety of pulmonary parameters, including inflammation, cytotoxicity,lung cell proliferation, and histopathologic alterations. Burdensof p-TiO₂ in the lungs and in the lung-associated lymph nodesincreased in a concentration-dependent manner. Retained lungburdens following exposure were greatest in mice. Rats and hamstershad similar lung burdens immediately postexposure when assessedas milligrams of p-TiO₂ per gram of dried lung. Particle retentiondata suggested that pulmonary overload was achieved in bothrats and mice at the exposure levels of 50 and 250 mg/m³. Underthe conditions of the present study, hamsters were better ableto clear p-TiO₂ particles than were similarly exposed mice andrats. Pulmonary histopathology revealed both species and concentration-dependentdifferences in p-TiO₂ particle retention patterns. Inflammationwas noted in all three species at 50 and 250 mg/m³, as evidencedby increases in macrophage and neutrophil numbers and in solubleindices of inflammation in bronchoalveolar lavage fluid (BALF;rats > mice, hamsters). In mice and rats, the BALF inflammatoryresponses remained elevated relative to controls throughoutthe entire postexposure recovery period in the most highly exposedanimals. In comparison, inflammation in hamsters eventuallydisappeared, even at the highest exposure dose, due to the morerapid clearance of particles from the lung. Pulmonary lesionswere most severe in rats, where progressive epithelial- andfibroproliferative changes were observed in the 250 mg/m³ group.These epithelial proliferative changes were also manifestedin rats as an increase in alveolar epithelial cell labelingin cell proliferation studies. Associated with these foci ofepithelial proliferation were interstitial particle accumulationand alveolar septal fibrosis. In summary, there were significantspecies differences in pulmonary responses to inhaled p-TiO₂particles. Under conditions in which the lung p-TiO₂ burdenswere similar and likely to induce pulmonary overload, rats developeda more severe and persistent pulmonary inflammatory responsethan either mice or hamsters. Rats also were unique in the developmentof progressive fibroproliferative lesions and alveolar epithelialmetaplasia in response to 90 days of exposure to a high concentrationof p-TiO₂ particles.

Key Words: pigmentary titanium dioxide; lung response; rats; mice; hamsters; inhalation; bronchoalveolar lavage fluid; pulmonary lesions.

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