Suresh H. Moolgavkar

University of Washington

Past Project

Stochastic Models for Low LET Radiation Risk Estimation at Low Dose and Dose Rate

Technical Abstracts

2002 Workshop:
Biologically based analysis of lung cancer incidence in a large Canadian occupational cohort with low-LET low-dose radiation exposure, and comparison with Japanese atomic bomb survivors.
Hazelton, W.D., Krewski, D., Moolgavkar, S.H.

2001 Workshop:
Analyses of a Cohort of Workers Exposed to Low Doses of Low-LET Ionizing Radiation.
Hazelton, W.D., Moolgavkar, S.H.

1999 Workshop:
Stochastic Models for Low-LET Radiation Risk Estimation at Low Dose and Dose-Rate.
Moolgavkar, S.H., Luebeck, E.G., Curtis, S. and Krewski, D.

Publications

Hazelton, W.D., Luebeck, E.G., Heidenreich, W.F., and Moolgavkar, S.H. (2001). Analysis of a historical cohort of Chinese tin miners with arsenic, radon, cigarette smoke, and pipe smoke exposures using the biologically bases two-stage clonal expansion model. Radiation Research 156:78-94.

Moolgavkar, S.H. (2000). Multistage models and the A-bomb survivor data: Implications for carcinogenic mechanisms? Radiation Research 154(6):728-729.

Leubeck, E.G., Heidenreich, W.F., Hazelton, W.D., Paretzke, H.G., and Moolgavkar, S.H. (1999). Biologically based analysis of the data for the Colorado uranium miners cohort: Age, dose and dose-rate effects. Radiation Research 152:339-351.

Moolgavkar, S.H. (1988). Biologically motivated two-stage model for cancer risk assessment. Toxicology Letters 43:139-150.

Moolgavkar, S.H. and Knudson, A.G., Jr. (1981). Mutation and cancer: A model for human carcinogenesis. Journal of National Cancer Institute 66(6):1037-1052.

Moolgavkar, S.H. and Venzon, D.J. (1979). Two-event models for carcinogenesis: Incidence curves for childhood and adult tumors. Mathematical Biosciences 47:55-77.

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