Publications

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Mobile sources is a term most commonly used to describe radioactive sources that are used in applications requiring frequent transportation. Such radioactive sources are in common use world-wide where typical applications include radiographic non-destructive evaluation (NDE) and oil and gas well logging, among others requiring lesser amounts of radioactivity. This report provides a general overview of mobile sources used for well logging and industrial radiography applications including radionuclides used, equipment, and alternative technologies. Information presented here has been extracted from a larger study on common mobile radiation sources and their use.

The D-value or dangerous quantity system was designed by the International Commission for Radiological Protection for the determination of source protection categories that can be used to reduce the likelihood of accidents, the consequences of which could result in harm to individuals or costly or expensive cleanup. The process includes multiple scenarios for exposure and two different approaches to the evaluation of detriment. This document provides an example calculation using ¹³⁷Cs to walk through the complex process of determining its D-value in the hopes of making the process easily understandable.

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There are numerous self-shielded research irradiators used in various facilities throughout the United States. The irradiators employ radioactive sources containing either ¹³⁷Cs or ⁶⁰Co and the irradiators are used for a variety of radiobiological investigations involving cellular and/or animal models. A report from the National Academy of Sciences described security issues associated with particular radiation sources and the desire for their replacement with suitable X-ray irradiators. One possible replacement would be a 320 kV X-ray irradiator. The participants in this research successfully performed in vivo radiobiological studies involving mice exposed to filtered (HVL ≈ 4 mm Cu) 320 kV X rays. Two publications (one published and one submitted at the publishing of this report) documenting key findings are provided in Appendices A and B of this report. The 320 kV X rays were found suitable for in vivo (in mice) cell survival studies and are expected to be suitable for bone marrow transplantation studies using mice but this needs to be experimentally validated.

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US homeland security concerns regarding the potential misuse of some radiation sources used in radiobiological research, for example, cesium-137 (137Cs), have resulted in recommendations by the National Research Council to conduct studies into replacing these sources with suitable X-ray instruments. The objective of this research is to compare the effectiveness of an X-RAD 320 irradiator (PXINC 2010) with a 137Cs irradiator (Gammacell-1000 Unit) using an established bone marrow chimeric model. Using measured radiation doses for each instrument, we characterized the dose–response relationships for bone marrow and splenocyte ablation, using a cytotoxicity-hazard model. Our results show that the X-RAD 320 photon energy spectrum was suitable for ablating bone marrow at the 3 exposure levels used, similar to that of 137Cs photons. However, the 320-kV X-rays were not as effective as the much higher energy γ rays at depleting mouse splenocytes. Furthermore, the 3 X-ray levels used were less effective than the higher energy γ rays in allowing the successful engraftment of donor bone marrow, potentially as a result of the incomplete depletion of the spleen cells. More defined studies are warranted for determining whether bone marrow transplantation in mice can be successfully achieved using 320-kV X-rays. A higher X-ray dose then used is likely needed for transplantation success.

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