Risk assessment for aflatoxin B1: a modeling approach.

The data generated by Yeh et al. on hepatitis B virus, aflatoxin, and primary hepatocellular carcinoma (PHC) in Southern Guangxi, China was used to evaluate the cancer potency of aflatoxin. We examined model fits to these data to explore whether hepatitis B virus (HBV) and aflatoxin intake act together to affect PHC rates in an additive, multiplicative, or interactive fashion, using relative and excess risk model forms. Purely additive models fit the data poorly. Fitted models were checked for plausibility by comparing predictions for the U.S. population with actual PHC incidence rates in the United States, and parameter stability was evaluated. The multiplicative relative risk and the interactive excess risk models provided satisfactory descriptions of the Yeh et al. data and U.S. PHC rates. There is about an eight-fold difference in the potency estimate for aflatoxin under the multiplicative relative risk (5.7 (mg/kg-day)-1) and interactive excess risk models (45.6 mg/kg-day)-1). The assumptions and limitations of the various models are discussed.

[1]  R. A. Metcalf,et al.  Mutational hot spot in the p53 gene in human hepatocellular carcinomas , 1991, Nature.

[2]  H. Checkoway,et al.  Epidemiologic programs for computers and calculators. Use of Poisson regression models in estimating incidence rates and ratios. , 1985, American journal of epidemiology.

[3]  B. Henderson,et al.  Hepatitis B virus, aflatoxins, and hepatocellular carcinoma in southern Guangxi, China. , 1989, Cancer research.

[4]  T. Campbell,et al.  Nonassociation of aflatoxin with primary liver cancer in a cross-sectional ecological survey in the People's Republic of China. , 1990, Cancer research.

[5]  J. Wands,et al.  Selective G to T mutations of p53 gene in hepatocellular carcinoma from southern Africa , 1991, Nature.

[6]  L. Stoloff Aflatoxin as a cause of primary liver-cell cancer in the United States: a probability study. , 1983, Nutrition and cancer.

[7]  J. Kaldor,et al.  Aflatoxin exposure, hepatitis b virus infection and liver cancer in swaziland , 1987, International journal of cancer.

[8]  C. Wild,et al.  Correspondence re: T. Colin Campbell et al., Nonassociation of aflatoxin with primary liver cancer in a cross-sectional ecological survey in the People's Republic of China. Cancer Res., 50:6882-6893, 1990. , 1991, Cancer research.

[9]  C. Linsell,et al.  Dietary aflatoxins and human liver cancer. A study in Swaziland , 1976, International journal of cancer.

[10]  C S Davidson,et al.  Association between aflatoxin content of food and hepatoma frequency in Uganda , 1971, Cancer.

[11]  M. Hoseyni Risk assessment for aflatoxin: III. Modeling the relative risk of hepatocellular carcinoma. , 1992, Risk analysis : an official publication of the Society for Risk Analysis.

[12]  C. Linsell,et al.  Dietary aflatoxins and liver cancer--a population based study in Kenya. , 1973, British Journal of Cancer.

[13]  I. Purchase,et al.  Hepatocellular carcinoma and dietary aflatoxin in Mozambique and Transkei. , 1985, British Journal of Cancer.

[14]  R. C. Shank,et al.  Dietary aflatoxins and human liver cancer. IV. Incidence of primary liver cancer in two municipal populations of Thailand. , 1972, Food and cosmetics toxicology.

[15]  R. D. Bruce Risk assessment for aflatoxin: II. Implications of human epidemiology data. , 1990, Risk analysis : an official publication of the Society for Risk Analysis.