Relatively high doses of chemicals generally are employed in animal bioassays to detect potential carcinogens with relatively small numbers of animals. The problem investigated here is the development of experimental designs which are effective for high to low dose extrapolation for tumor incidence as well as for screening (detecting) carcinogens. Several experimental designs are compared over a wide range of different dose response curves. Linear extrapolation is used below the experimental data range to establish an upper bound on carcinogenic risk at low doses. The goal is to find experimental designs which minimize the upper bound on low dose risk estimates (i.e., maximize the allowable dose for a given level of risk). The maximum tolerated dose (MTD) is employed for screening purposes. Among the designs investigated, experiments with doses at the MTD, 1/2 MTD, 1/4 MTD, and controls generally provide relatively good data for low dose extrapolation with relatively good power for detecting carcinogens. For this design, equal numbers of animals per dose level perform as well as unequal allocations.
[1]
C. Portier,et al.
Optimal design of the chronic animal bioassay.
,
1983,
Journal of toxicology and environmental health.
[2]
D. Gaylor,et al.
A report on the workshop on biological and statistical implications of the ED01 study and related data bases.
,
1983,
Fundamental and applied toxicology : official journal of the Society of Toxicology.
[3]
R L Kodell,et al.
Nonparametric joint estimators for disease resistance and survival functions in survival/sacrifice experiments.
,
1982,
Biometrics.
[4]
E. Kaplan,et al.
Nonparametric Estimation from Incomplete Observations
,
1958
.
[5]
P. Armitage.
Tests for Linear Trends in Proportions and Frequencies
,
1955
.
[6]
W. G. Cochran.
Some Methods for Strengthening the Common χ 2 Tests
,
1954
.
[7]
Gary M. Lee,et al.
Nonlinear interpolation
,
1971,
IEEE Trans. Inf. Theory.