Exposure to bone-seeking radionuclides such as Pu, Am and Ra presents a substantial health risk and is of considerable public concern. The present models used to establish """"""""safe"""""""" limits and to protect humans from the harmful effects of internally-deposited alpha emitting nuclides are based on incomplete data and in some cases clearly erroneous assumptions. Some of the deficiencies in the current model include incorrect assumptions for the partitioning of nuclides between trabecular and cortical bone, incorporation and retention of Pu on bone surfaces, the nature of the cellular composition of the endosteum, and contribution of marrow deposits. Using a unique and extensive collection of specimens, that the aplicants have in their possession from previous beagle dog studies, the deficiencies in the present model will be addressed with the following aims. 1) Static and dynamic physical data from bone sites and associated dosimetric parameters will be determined. 2) From neutron-induced autoradiographs (NIAR), the tissue parameters important for a local dose model will be determined, including osseous tissue and marrow contents. 3) Using fluorochrome- based histomorphometric methods, the remodelling and turnover characteristics of different bone sites will be correlated with Pu concentrations at these same sites. 4) Areal bone cell densities will be quantified and radiation doses and hit frequencies to specific cell populations will be determined. The local dose model will be correlated with known probabilities of tumor occurrence at specific sites and then extrapolated to humans. Pu-exposed human bone will be obtained and static and local dosimetric data obtained. This will provide a stronger basis for comparing the animal data with human. This study will provide a considerably more accurate biokinetic dose/effect model, based on experimental data supplemented with human observations, for predicting the consequences of human exposure to bone-seeking radionuclides. These studies will also provide fundamental new knowledge about the biokinetics of metals in skeletal tissues.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA066759-02
Application #
2414377
Study Section
Special Emphasis Panel (ZRG3-RAD (02))
Project Start
1996-05-15
Project End
1999-04-30
Budget Start
1997-05-07
Budget End
1998-04-30
Support Year
2
Fiscal Year
1997
Total Cost
Indirect Cost
Name
University of Utah
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
City
Salt Lake City
State
UT
Country
United States
Zip Code
84112
Lyovkina, Yekaterina V; Miller, Scott C; Romanov, Sergey A et al. (2010) Quantitative plutonium microdistribution in bone tissue of vertebra from a Mayak worker. Health Phys 99:464-70
Lloyd, R D; Taylor, G N; Miller, S C et al. (2006) Ancestry of beagles in lifespan studies of radionuclide toxicity at the University of Utah. Health Phys 90:580-2
Luciani, A; Polig, E; Lloyd, R D et al. (2006) Americium in the beagle dog: biokinetic and dosimetric model. Health Phys 90:459-70
Lloyd, Ray D (2005) Nonmelanoma gingival malignancies and tooth loss among beagles injected with 90Sr. Health Phys 89:278-9; author reply 280
Krahenbuhl, M P; Bess, J D; Wilde, J L et al. (2005) Uncertainties analysis of doses resulting from chronic inhalation of plutonium at the Mayak production association. Health Phys 89:33-45
Lloyd, R D; Bruenger, F W; Taylor, G N et al. (2005) Search for a genetic link for mammary cancer in a beagle colony. In Vivo 19:723-7
Lloyd, Ray D; Thurman, Gary B; Taylor, Glenn N et al. (2005) Does the severity of radionuclide-induced skeletal malignancy depend upon radiation dose? Health Phys 88:491-6
Lloyd, Ray D; Taylor, Glenn N; Miller, Scott C (2004) Does malignant hematopoietic disease result from internal exposure to 239Pu? Health Phys 86:625-8
Polig, E; Lloyd, R D; Bruenger, F W et al. (2004) Biokinetic model of radium in humans and beagles. Health Phys 86:42-55
Polig, E; Bruenger, F W; Lloyd, R D et al. (2004) Survival and bone tumor hazard from internal deposition of 226Ra in beagles. Health Phys 86:590-602

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