A 90-day chloroform inhalation study in female and male B6C3F1 mice : Implications for cancer risk assessment

High doses of chloroform induced liver cancer in male and female B6C3F1 mice when administered by gavage, kidney cancer in male Osborne-Mendel rats when given by gavage or in the drinking water, and kidney cancer in male BDF1 mice when administered by inhalation. The weight of evidence indicates tha...

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Bibliographic Details
Published in:Fundamental and applied toxicology 1996-03, Vol.30 (1), p.118-137
Main Authors: LARSON, J. L, TEMPLIN, M. V, WOLF, D. C, JAMISON, K. C, LEININGER, J. R, MERY, S, MORGAN, K. T, WONG, B. A, CONOLLY, R. B, BUTTERWORTH, B. E
Format: Article
Language:English
Subjects:
Administration, Inhalation
Animals
Biological and medical sciences
Bone and Bones - drug effects
Bone and Bones - pathology
Carcinogenicity Tests
Chloroform - administration & dosage
Chloroform - toxicity
Female
Food toxicology
Kidney - drug effects
Kidney - pathology
Liver - drug effects
Liver - pathology
Male
Medical sciences
Mice
Mice, Inbred C57BL
Nasal Mucosa - drug effects
No-Observed-Adverse-Effect Level
Organ Size - drug effects
Risk Assessment
Toxicology
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Summary:High doses of chloroform induced liver cancer in male and female B6C3F1 mice when administered by gavage, kidney cancer in male Osborne-Mendel rats when given by gavage or in the drinking water, and kidney cancer in male BDF1 mice when administered by inhalation. The weight of evidence indicates that chloroform is acting through a nongenotoxic-cytotoxic mode of action. The present study was designed to investigate the dose-response relationships for chloroform-induced lesions and regenerative cell proliferation in B6C3F1 mice as the basis for formulation of a biologically based risk assessment for inhaled chloroform. Different groups of female and male B6C3F1 mice were exposed to atmospheric concentrations of 0, 0.3, 2, 10, 30, and 90 ppm chloroform 6 hr/day, 7 days/week for exposure periods of 4 days or 3, 6, or 13 consecutive weeks. Some additional exposure groups were exposed for 5 days/week for 13 weeks or were exposed for 6 weeks and then examined at 13 weeks. Bromodeoxyuridine was administered via osmotic pumps implanted 3.5 days prior to necropsy, and the labeling index (LI, percentage of nuclei in S-phase) was evaluated immunohistochemically from histological sections. Complete necropsy and microscopic evaluation revealed treatment-induced dose- and time-dependent lesions only in the livers and nasal passage of the female and male mice and in the kidneys of the male mice. Large, sustained increases in the liver LI were seen in the 90-ppm groups at all time points. The female mice were most sensitive, with a no-observed-adverse-effect level (NOAEL) for induced hepatic cell proliferation of 10 ppm. The hepatic LI in the 5 days/week groups were about half of those seen in the 7 days/week groups and had returned to the normal baseline in the 6-week recovery groups. Induced renal histologic changes and regenerative cell proliferation were seen in the male mice at 30 and 90 ppm with 7 days/week exposures and also at 10 ppm with the 5 days/week regimen. Nasal lesions were transient and confined to mice exposed to 10, 30, or 90 ppm for 4 days. In a previous cancer bioassay, a gavage dose of 477 mg/kg/day produced a 95% liver tumor incidence in female B6C3F1 mice. This gavage dose is equivalent to a daily 6 hr/day inhalation exposure of approximately 80 ppm, based on the observed induced increases in the LI as an internal dosimeter. The United States Environmental Protection Agency currently uses the linearized multistage model applied to the mouse liver tu
ISSN:0272-0590
1095-6832
DOI:10.1006/faat.1996.0049