Effect of erionite on the pleural mesothelium of the Fischer 344 rat

Effect of erionite on the pleural mesothelium of the Fischer 344 rat

This study sought to assess the fibrogenic and carcinogenic potential of erionite (a fibrous zeolite) on the pleural mesothelium of the Fischer 344 rat (n = 24). The study was designed to examine rat pleural mesothelial changes by three independent observers at timed intervals, ranging from 1 to 480...

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Bibliographic Details
Published in:Chest Vol. 111; no. 5; p. 1375
Main Authors: Fraire, A E, Greenberg, S D, Spjut, H J, Dodson, R F, Williams, G, Lach-Pasko, E, Roggli, V L
Format: Journal Article
Language:English
Published: United States 01-05-1997
Subjects:
Animals
Carcinogens - pharmacology
Chemical Phenomena
Chemistry, Physical
Epithelium - drug effects
Female
Fibrosis
Follow-Up Studies
Foreign-Body Reaction - chemically induced
Hyperplasia
Lung - drug effects
Lung Diseases - chemically induced
Mesothelioma - chemically induced
Microscopy
Nevada
Oregon
Pleura - drug effects
Pleural Diseases - chemically induced
Pleural Neoplasms - chemically induced
Pleurisy - chemically induced
Pneumonia - chemically induced
Pulmonary Fibrosis - chemically induced
Rats
Rats, Inbred F344
Zeolites - chemistry
Zeolites - pharmacology
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Summary:This study sought to assess the fibrogenic and carcinogenic potential of erionite (a fibrous zeolite) on the pleural mesothelium of the Fischer 344 rat (n = 24). The study was designed to examine rat pleural mesothelial changes by three independent observers at timed intervals, ranging from 1 to 480 days postinoculation using erionite from the Pine Valley, Nevada (USA) area. The mean length and width of the erionite fibers were 2.29 and 0.48 microns, respectively. Only microscopic observations made by majority (2/3) or unanimity (3/3) were accepted for final diagnosis. Pleural and lung tissue were available for examination in 21 of the 24 rats. Fibrosis, chronic inflammation, and foreign body reaction occurred in 6 of 21 rats. Mesothelial hyperplasia and dysplasia occurred in 9 and 3 of the 21 rats, respectively. A single mesothelioma was identified at 434 days in a rat that had gross nodular pleural lesions. The findings reported herein confirm the strong fibrogenic potential of erionite but are at variance with previous studies reporting much higher yields of mesothelioma. The reasons for the low yield of mesothelioma in this study are not known, but may be related to the study design, the strict criteria used for histopathologic diagnosis, and/or possible differences in erionite physicochemical properties, associated with its geographic distribution, most previous animal studies having used erionite from the Rome, Oregon (USA) area.
ISSN:0012-3692
DOI:10.1378/chest.111.5.1375