Abstract
Long-term studies in rodents are the benchmark method to assess carcinogenicity of single substances, mixtures, and multi-compounds. In such a study, mice and rats are exposed to a test agent at different dose levels for a period of two years and the incidence of neoplastic lesions is observed. However, this two-year study is also expensive, time-consuming, and burdensome to the experimental animals. Consequently, various alternatives have been proposed in the literature to assess carcinogenicity on basis of short-term studies. In this paper, we investigated if effects on the rodents’ liver weight in short-term studies can be exploited to predict the incidence of liver tumors in long-term studies. A set of 138 paired short- and long-term studies was compiled from the database of the U.S. National Toxicology Program (NTP), more precisely, from (long-term) two-year carcinogenicity studies and their preceding (short-term) dose finding studies. In this set, data mining methods revealed patterns that can predict the incidence of liver tumors with accuracies of over 80%. However, the results simultaneously indicated a potential bias regarding liver tumors in two-year NTP studies. The incidence of liver tumors does not only depend on the test agent but also on other confounding factors in the study design, e.g., species, sex, type of substance. We recommend considering this bias if the hazard or risk of a test agent is assessed on basis of a NTP carcinogenicity study.
Highlights
The U.S National Toxicology Program (NTP) conducts carcinogenicity studies in rodents to identify substances that may be hazardous to humans [1,2,3]
The results revealed patterns that can predict the incidence of liver tumors in 2Y-carcinogenicity study (CS) on basis of findings from dose finding studies, i.e., findings from short-term CSs
The tree predicted liver tumors if a mixture or a multi-compound was administered at a dose level which indicated liver toxicity in the dose finding study
Summary
The U.S National Toxicology Program (NTP) conducts carcinogenicity studies in rodents to identify substances that may be hazardous to humans [1,2,3]. In a typical carcinogenicity study, mice and rats of both sexes are exposed to a substance of interest. The substance is administered to the rodents at three dose levels for a period of two years. The three dose levels are defined on basis of preceding dose finding studies, and 50 rodents of every species and every sex PLOS ONE | DOI:10.1371/journal.pone.0116488. A Potential Bias Regarding Liver Tumors in the NTP Database The three dose levels are defined on basis of preceding dose finding studies, and 50 rodents of every species and every sex PLOS ONE | DOI:10.1371/journal.pone.0116488 February 6, 2015
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