B. Shleien scite author profile

We reviewed over 40 epidemiologic studies around nuclear power stations, fuel reprocessing plants, and weapons production facilities and testing sites in the United Kingdom, the United States, France, and Canada. We examined these studies for their potential to support a cause and effect relationship between cancer risk and radiation exposure. The extent to which an epidemiologic study supports a causal relation between radiation exposure and increased cancer risk can be evaluated using a set of criteria that have become known as Hill's postulates. In our review, epidemiologic studies yielded results that were biologically plausible and were supported by experimental data, but in almost all of the studies the methodologies were not adequate for evaluating causality. In the majority of cases, the methodologies did not permit examination of dose-response associations, making it impossible to support or refute causal relations. We suggest that investigators consider these issues when designing studies and employ dose reconstruction methodology to estimate radiation doses for specific individuals and population groups.

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Plutonium in Environmental and Biological Media

Magno¹,

Kauffman²,

Shleien³

1967

Health Physics

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Data are presented on the concentrations of plutonium in air, precipitation, total diet, milk and human tissue samples collected in the United States during the period 1964-1966. These data show that 23gPu in monthly composites of particulates collected from surface level air in Winchester, Massachusetts, ranged from 0.047 to 0.437 fCi/mS from May 1965 to April 1966, and that the average 23BPu to ' OSr ratio was 0.019 and the average 238Pu to =' Pu ratio was 0.04. Monthly deposition of =' Pu from precipitation over the same period ranged from 0.86 to 8.8 pCi/m2. Children's diets collected from six widely spaced geographical areas showed average concentrations which ranged from 2.7 to 5.8 fCi/kg for monthly samples for the period July-December 1965. Milk samples collected in a similar manner over a similar period showed concentrations which were not significantly different from zero.

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Overview of the Fernald Dosimetry Reconstruction Project and Source Term Estimates for 1951–1988

Meyer¹,

Voilleque²,

Schmidt³

et al. 1996

Health Physics

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The Feed Materials Production Center, northwest of Cincinnati, processed uranium concentrates and uranium compounds recycled from other stages of nuclear weapons production, as well as some uranium ore and thorium. Particulate releases were primarily uranium (natural, depleted, and slightly enriched. In addition, two large silos containing radium-bearing residues were emission sources of radon and its decay products. The Fernald Dosimetry Reconstruction Project was undertaken to help the Centers for Disease Control and Prevention to evaluate the impact of the Feed Materials Production Center on the public from radionuclides released to the environment from 1951 through 1988. At this point in the study, the project has estimated the quantities of radioactive materials released to air, surface water, and in groundwater; developed the methodology to describe the environmental transport of the materials; developed mathematical models to calculate the resulting radiation doses; and evaluated environmental monitoring data to verify that the estimates of releases and transport are reasonable. Thorough review of historical records and extensive interaction with former and current employees and residents have been the foundation for reconstructing routine operations, documenting accidents, and evaluating unmonitored emission sources. The largest releases of uranium to air and water occurred in the 1950's and 1960's. Radon releases from the silos remained elevated through most of the 1970's. The quantity of uranium released to surface water was much less than that released to air. Best estimates of releases are reported as median values, with associated uncertainties calculated as an integral part of the estimates. Screening calculations showed that atmospheric pathways dominate the total dose from Feed Materials Production Center releases. Accordingly, the local meteorology, effluent particle size and chemical form, and wet and dry deposition, were particularly important in this study. The final goal of the project is the calculation of radiation doses to people living in the study domain, which is represented by a circle with radius of 10 km centered on the Feed Materials Production Center production area.

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B. Shleien

The Health Physics and Radiological Health Handbook

Thyroid Tumors Following 131 I or Localized X Irradiation to the Thyroid and Pituitary Glands in Rats

Epidemiologic Studies of Cancer in Populations Near Nuclear Facilities

Plutonium in Environmental and Biological Media

Overview of the Fernald Dosimetry Reconstruction Project and Source Term Estimates for 1951–1988

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