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Uncertainty in Cancer Risk Estimates

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  • David W. Gaylor
  • James J. Chen
  • Daniel M. Sheehan

Abstract

Several existing databases compiled by Gold et al.(1–3) for carcinogenesis bioassays are examined to obtain estimates of the reproducibility of cancer rates across experiments, strains, and rodent species. A measure of carcinogenic potency is given by the TD50 (daily dose that causes a tumor type in 50% of the exposed animals that otherwise would not develop the tumor in a standard lifetime). The lognormal distribution can be used to model the uncertainty of the estimates of potency (TD50) and the ratio of TD50's between two species. For near‐replicate bioassays, approximately 95% of the TD50's are estimated to be within a factor of 4 of the mean. Between strains, about 95% of the TD50's are estimated to be within a factor of 11 of their mean, and the pure genetic component of variability is accounted for by a factor of 6.8. Between rats and mice, about 95% of the TD50's are estimated to be within a factor of 32 of the mean, while between humans and experimental animals the factor is 110 for 20 chemicals reported by Allen et al.(4) The common practice of basing cancer risk estimates on the most sensitive rodent species‐strain‐sex and using interspecies dose scaling based on body surface area appears to overestimate cancer rates for these 20 human carcinogens by about one order of magnitude on the average. Hence, for chemicals where the dose‐response is nearly linear below experimental doses, cancer risk estimates based on animal data are not necessarily conservative and may range from a factor of 10 too low for human carcinogens up to a factor of 1000 too high for approximately 95% of the chemicals tested to date. These limits may need to be modified for specific chemicals where additional mechanistic or pharmacokinetic information may suggest alterations or where particularly sensitive subpopu‐lations may be exposed. Supralinearity could lead to anticonservative estimates of cancer risk. Underestimating cancer risk by a specific factor has a much larger impact on the actual number of cancer cases than overestimates of smaller risks by the same factor. This paper does not address the uncertainties in high to low dose extrapolation. If the dose‐response is sufficiently nonlinear at low doses to produce cancer risks near zero, then low‐dose risk estimates based on linear extrapolation are likely to overestimate risk and the limits of uncertainty cannot be established.

Suggested Citation

  • David W. Gaylor & James J. Chen & Daniel M. Sheehan, 1993. "Uncertainty in Cancer Risk Estimates," Risk Analysis, John Wiley & Sons, vol. 13(2), pages 149-154, April.
  • Handle: RePEc:wly:riskan:v:13:y:1993:i:2:p:149-154
    DOI: 10.1111/j.1539-6924.1993.tb01064.x
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