Your search keyword '"N. B. Shagina"' showing total 19 results

1. Fetal organ dosimetry for the Techa River and Ozyorsk offspring cohorts, part 1: a Urals-based series of fetal computational phantoms

Author

N. B. Shagina, Timothy Fell, Evgenia I. Tolstykh, Matthew R. Maynard, Wesley E. Bolch, and Marina O. Degteva

Subjects

Biophysics, Radiation Dosage, Imaging phantom, Russia, Cohort Studies, Fetus, Rivers, Pregnancy, Humans, media_common.cataloged_instance, Dosimetry, Medicine, Tissue Distribution, European union, Maternal-Fetal Exchange, Fetal organ, General Environmental Science, media_common, Radioisotopes, Radiation, Phantoms, Imaging, business.industry, Pregnant female, equipment and supplies, Critical parameter, Maternal Exposure, Fetal bones, Female, Nuclear medicine, business

Abstract

The European Union's SOLO (Epidemiological Studies of Exposed Southern Urals Populations) project aims to improve understanding of cancer risks associated with chronic in utero radiation exposure. A comprehensive series of hybrid computational fetal phantoms was previously developed at the University of Florida in order to provide the SOLO project with the capability of computationally simulating and quantifying radiation exposures to individual fetal bones and soft tissue organs. To improve harmonization between the SOLO fetal biokinetic models and the computational phantoms, a subset of those phantoms was systematically modified to create a novel series of phantoms matching anatomical data representing Russian fetal biometry in the Southern Urals. Using previously established modeling techniques, eight computational Urals-based phantoms aged 8, 12, 18, 22, 26, 30, 34, and 38 weeks post-conception were constructed to match appropriate age-dependent femur lengths, biparietal diameters, individual bone masses and whole-body masses. Bone and soft tissue organ mass differences between the common ages of the subset of UF phantom series and the Urals-based phantom series illustrated the need for improved understanding of fetal bone densities as a critical parameter of computational phantom development. In anticipation for SOLO radiation dosimetry studies involving the developing fetus and pregnant female, the completed phantom series was successfully converted to a cuboidal voxel format easily interpreted by radiation transport software.

Published

2014

2. Chronic radioisotope effects on residents of the Techa River (Russia) region: Cytogenetic analysis more than 50 years after onset of exposure

Author

A V Akleyev, A.V. Vozilova, M. O. Degteva, and N. B. Shagina

Subjects

Adult, Male, Time Factors, Health, Toxicology and Mutagenesis, Strontium Radioisotopes, Radiation Dosage, Age and sex, River water, Russia, Red bone marrow, Rivers, Radiation Monitoring, Environmental health, Genetics, Humans, In vivo measurements, Medicine, Aged, Aged, 80 and over, Chromosome Aberrations, Radionuclide, business.industry, Environmental Exposure, Middle Aged, Case-Control Studies, Cytogenetic Analysis, Body Burden, business

Abstract

This paper presents the results of a cytogenetic study conducted among residents of the Techa Riverside communities (Southern Urals, Russia) exposed in the early 1950s as a result of releases of liquid radioactive wastes from the Mayak plutonium-production facility. The study was performed 50–60 years after the beginning of the exposure for those individuals who were predominantly exposed to strontium radioisotopes ( 89,90 Sr) through drinking contaminated river water and consumption of local foodstuff. Standard cytogenetic methods were used for evaluation of the frequency of unstable chromosome aberrations in exposed persons as well as in persons from the control group who were of similar age and sex, living in similar socio-economic conditions in non-contaminated territories of the Southern Urals. The exposure doses were reconstructed for the studied donors using the Techa River Dosimetry System developed in 2009. The doses of internal exposure from ingested radionuclides were evaluated using individual or family in vivo measurements of 90 Sr-body burden. Individual cumulative absorbed doses in red bone marrow (RBM) in the studied persons varied in the range of 0.01–4.4 Gy. A significantly higher level of unstable chromosome aberrations (UCA) in T-cells was observed in the group of exposed individuals as compared to control group. The highest UCA level was detected in the individuals who were suspected of having chronic radiation syndrome.

Published

2013

3. Reconstruction of Long-lived Radionuclide Intakes for Techa Riverside Residents

Author

N. B. Shagina, E. I. Tolstykh, Lynn R. Anspaugh, Peremyslova Lm, M. I. Vorobiova, Marina O. Degteva, and Bruce A. Napier

Subjects

Water Pollutants, Radioactive, Time Factors, Epidemiology, Health, Toxicology and Mutagenesis, Poaceae, River water, Rivers, Radiation Monitoring, Environmental health, Animals, Humans, Radiology, Nuclear Medicine and imaging, Food Contamination, Radioactive, Retrospective Studies, Radionuclide, business.industry, Milk, Cesium Radioisotopes, Time course, Cohort, Strontium Radioisotopes, Body Burden, Environmental science, Cattle, Nuclear medicine, business, Strontium-90

Abstract

Releases of radioactive materials from the Mayak Production Association in 1949-1956 resulted in contamination of the Techa River; a nuclide of major interest was 90Sr, which downstream residents consumed with water from the river and with milk contaminated by cow's consumption of river water and contaminated pasture. Over the years, several reconstructions of dose have been performed for the approximately 30,000 persons who make up the Extended Techa River Cohort. The purpose of the study described here was to derive a revised reference-90Sr-intake function for the members of this cohort. The revision was necessary because recently discovered data have provided a more accurate description of the time course of the releases, and more is now known about the importance of the pasture grass-cow-milk pathway for the members of this cohort. The fundamental basis for the derivation of the reference-90Sr-intake function remains the same: thousands of measurements of 90Sr content in bone with a special whole-body counter, thousands of measurement of beta-activity of front teeth with a special tooth-beta counter, and a variety of other measurements, including post mortem measurements of 90Sr in bone, measurements of 90Sr in cow's milk, and measurements of beta activity in human excreta. Results of themore » new analyses are that the major intake started in September 1950 and peaked somewhat later than originally postulated. However, the total intake for adult residents has not changed significantly. For children of some birth years, the intake and incorporation of 90Sr in bone tissue have changed substantially.« less

Published

2013

4. Chronic low-dose exposure in the Techa River Cohort: risk of mortality from circulatory diseases

Author

N. B. Shagina, Lyudmila Yurievna Krestinina, Lyudmila Mikryukova, Alexander V. Akleyev, Stanislav Silkin, S. B. Epifanova, and Marina O. Degteva

Subjects

Pediatrics, medicine.medical_specialty, education.field_of_study, Radiation, business.industry, Mortality rate, Population, Biophysics, Disease, Confidence interval, Surgery, Relative risk, Cohort, Risk of mortality, Medicine, Dosimetry, business, education, General Environmental Science

Abstract

The aim of the present study was to analyze the mortality from circulatory diseases for about 30,000 members of the Techa River cohort over the period 1950–2003, and to investigate how these rates depend on radiation doses. This population received both external and internal exposures from 90Sr, 89Sr, 137Cs, and other uranium fission products as a result of waterborne releases from the Mayak nuclear facility in the Southern Urals region of the Russian Federation. The analysis included individualized estimates of the total (external plus internal) absorbed dose in muscle calculated based on the Techa River Dosimetry System 2009. The cohort-average dose to muscle tissue was 35 mGy, and the maximum dose was 510 mGy. Between 1950 and 2003, 7,595 deaths from circulatory diseases were registered among cohort members with 901,563 person years at risk. Mortality rates in the cohort were analyzed using a simple parametric excess relative risk (ERR) model. For all circulatory diseases, the estimated excess relative risk per 100 mGy with a 15-year lag period was 3.6 % with a 95 % confidence interval of 0.2–7.5 %, and for ischemic heart disease it was 5.6 % with a 95 % confidence interval of 0.1–11.9 %. A linear ERR model provided the best fit. Analyses with a lag period shorter than 15 years from the beginning of exposure did not reveal any significant risk of mortality from either all circulatory diseases or ischemic heart disease. There was no evidence of an increased mortality risk from cerebrovascular disease (p > 0.5). These results should be regarded as preliminary, since they will be updated after adjustment for smoking and alcohol consumption.

Published

2012

5. Cortical bone resorption rate in elderly persons: Estimates from long-term in vivo measurements of 90Sr in the skeleton

Author

Lynn R. Anspaugh, Bruce A. Napier, N. B. Shagina, E. I. Tolstykh, and Marina O. Degteva

Subjects

Male, Aging, medicine.medical_specialty, Health (social science), Bone and Bones, Russia, Bone remodeling, Elderly persons, Nuclear Reactors, Radiation Monitoring, Internal medicine, medicine, Humans, In vivo measurements, Longitudinal Studies, Bone Resorption, Aged, business.industry, Environmental Exposure, Middle Aged, medicine.disease, Skeleton (computer programming), Resorption, Menopause, medicine.anatomical_structure, Endocrinology, Radioactive Waste, Strontium Radioisotopes, Body Burden, Female, Cortical bone, Geriatrics and Gerontology, Gradual increase, Radioactive Hazard Release, business, Gerontology

Abstract

The rate of cortical bone resorption was assessed from long-term in vivo measurements of 90 Sr content in the skeleton for men aged 50–80 years and for women 0–30 years after menopause. Measurements of 90 Sr were conducted with a whole body counter (WBC) for residents of the Techa Riverside communities (Southern Urals, Russia), who ingested large amounts of 90 Sr as a result of releases of liquid radioactive wastes into the river from the Mayak plutonium facility in early 1950s. The results of this study showed an increase in the rate of cortical bone resorption in both men and women, as based on the use of accidentally ingested 90 Sr as a tracer for bone metabolism. In men there was a continuous gradual increase in the rate of cortical bone resorption after 55 years from 2.8 to 4.5%/year by the age of 75 years. In women, there was a doubled increase in the rate of cortical bone resorption after menopause of up to 6%/year; then the rate remained unchanged for 10–12 years with a subsequent gradual decline down to 5–5.5%/year. Comparison of the rate of cortical bone resorption in men and women older than 55 years showed that women expressed significantly higher levels of cortical bone resorption.

Published

2012

6. Bone mineral density in residents of radioactive territories of Chelyabinsk Region

Author

Peremyslova Lm, Marina O. Degteva, N. B. Shagina, and E. I. Tolstykh

Subjects

Calcium metabolism, Bone mineral, business.industry, Thyroid, Biophysics, Biology, Contamination, Bone Mineral Contents, Skeleton (computer programming), medicine.anatomical_structure, Animal science, Radioactive contamination, medicine, Nuclear medicine, business, Radiation Accidents

Abstract

Operation of the Mayak plutonium production association resulted in radioactive contamination of a part of Chelyabinsk Region in the 1950–1960s. Significant gas-aerosol emission of 131I occurred since 1948; in 1957, a radiation accident resulted in 90Sr contamination of large territories. This paper presents comparison of the bone mineral density of persons who lived on territories with different levels of 90Sr-soil contamination with that of a control group. It was found that in 1970–1975, the bone mineral density, estimated from the mineral content in bone samples, in residents of contaminated areas born in 1936–1952 was significantly lower compared to the control group. For persons born in 1880–1935, such differences were not found. It was shown that the decrease in the bone mineral density was not related to 90Sr exposure of osteogenic cells in the dose range from 0.1 to 1300 mGy: the coefficient of correlation between individual 90Sr doses and bone mineral contents is not significant. The decrease in bone mineral density of persons born in 1936–1952 may be associated with exposure of the thyroid and parathyroid glands (systemic regulators of calcium metabolism) to 131I from gas-aerosol emissions from Mayak. The highest levels of gas-aerosol emissions occurred in 1948–1954 and coincided with the growth and development of the thyroid gland, characterized by intensive accumulation of 131I, and with the growth and maturation of the skeleton of persons born in the given calendar years.

Published

2011

7. Autoimmune process after long-term low-level exposure to electromagnetic field (experimental results). Part I. Mobile communications and changes in electromagnetic conditions for the population. Need for additional substantiation of existing hygienic standards

Author

V. S. Stepanov, O. A. Grigoriev, A. A. Ivanov, N. B. Shagina, A. M. Lyaginskaya, Y. G. Grigoriev, and A. V. Merkulov

Subjects

Electromagnetic field, education.field_of_study, Computer science, business.industry, Population, Biophysics, Low level exposure, Term (time), Base station, Risk analysis (engineering), Autoimmune Process, Mobile phone, Mobile telephony, education, business

Abstract

Mobile communications provides a new source of electromagnetic exposure for almost the whole population of Russia. For the first time in the history of civilization, the brain of mobile phone users is exposed to localized radiofrequency (RF) electromagnetic fields (EMF). Base stations are a factor in the exposure of the population. Existing standards for limiting exposure do not account for the role of base stations as a source of EMF and cannot guarantee the absence of adverse health effects. It has become necessary to obtain reliable information to expand databases for the development of new standards. As recommended by the World Health Organization, an additional experiment is performed under the supervision of foreign experts, which shows changes in autoimmune status in rats after long-term low-level RF EMF exposure with an incident power of 500 μW/cm2.

Published

2010

8. An approach to reduction of uncertainties in internal doses reconstructed for the Techa river population

Author

Marina O. Degteva, Bruce A. Napier, N. G. Bougrov, V.I. Zalyapin, E. I. Tolstykh, N. B. Shagina, and Lynn R. Anspaugh

Subjects

Water Pollutants, Radioactive, plutonium, strontium 90, Population, radiation detection, Models, Biological, Sensitivity and Specificity, Whole-Body Counting, Preliminary analysis, Reduction (complexity), Rivers, Russian Federation, Nuclear Reactors, Water Supply, Radioactive contamination, Statistics, Humans, Dosimetry, controlled study, Computer Simulation, Radiology, Nuclear Medicine and imaging, Internal dosimetry, education, education.field_of_study, Radiation, dosimetry, Radiological and Ultrasound Technology, radiation absorption, business.industry, drinking water, article, Public Health, Environmental and Occupational Health, Reproducibility of Results, water contamination, General Medicine, Radiation dose reconstruction, radioactive contamination, river water, Data Interpretation, Statistical, Absorbed dose, radiation measurement, Body Burden, Environmental science, Biological Assay, Nuclear medicine, business, mathematical model, USSR

Abstract

A methodology was developed for reduction of uncertainties in estimates of internal dose for residents of the Techa Riverside communities, who were exposed as a result of releases of radionuclides from the Mayak plutonium production facility in 1949-56. The 'Techa River Dosimetry System' (TRDS) was specifically elaborated for reconstruction of doses. A preliminary analysis of uncertainty for doses estimated using the current version of the TRDS showed large ranges in the uncertainty of internal absorbed dose and led to suggestions of methods to reduce uncertainties. The new methodological approaches described in this paper will allow for significant reduction of uncertainties of 90Sr- dose. The major sources of reduction are: making use of individual measured values of 90Sr and through development of a Household Registry to associate unmeasured persons with measured persons living in the same household(s). © The Author 2007. Published by Oxford University Press. All rights reserved.

Published

2007

9. In utero and postnatal haemopoietic tissue doses resulting from maternal ingestion of strontium isotopes from the Techa river

Author

T. P. Fell, John Harrison, A. W. Phipps, E. I. Tolstykh, N. B. Shagina, and Marina O. Degteva

Subjects

Administration, Oral, Health protection, Toxicology, Strontium Isotopes, Fetus, Bone Marrow, Pregnancy, Environmental health, Humans, media_common.cataloged_instance, Ingestion, Medicine, Tissue Distribution, Radiology, Nuclear Medicine and imaging, European union, Maternal-Fetal Exchange, Cells, Cultured, media_common, Radiation, Radiological and Ultrasound Technology, business.industry, Public Health, Environmental and Occupational Health, General Medicine, Hematopoietic Stem Cells, Isotopes of strontium, In utero, Prenatal Exposure Delayed Effects, Haemopoietic tissue, Body Burden, Female, business, Relative Biological Effectiveness, USSR

Abstract

Reliable estimates of tissue doses to individuals exposed as a result of radioactive releases to the Techa River are essential prerequisites for epidemiological analyses. This paper describes progress made in collaborative studies, sponsored by the European Union, between the Urals Research Center for Radiation Medicine and the UK Health Protection Agency to provide dose estimates to Techa River populations following in utero exposures and infant exposures resulting from breast-feeding. Studies have concentrated on the assessment of internal doses from 90 Sr as the main contributor to internal doses to the Techa River populations.

Published

2007

10. Strontium biokinetic model for the pregnant woman and fetus: application to Techa River studies

Author

John Harrison, N. B. Shagina, Timothy Fell, E. I. Tolstykh, and Marina O. Degteva

Subjects

Adult, Water Pollutants, Radioactive, Population, Physiology, chemistry.chemical_element, Fresh Water, Radiation Dosage, Russia, Fetus, Rivers, Pregnancy, Radiation Monitoring, Medicine, Ingestion, Humans, Fetal Skeleton, Tissue Distribution, education, Radiometry, Waste Management and Disposal, Food Contamination, Radioactive, Maternal-Fetal Exchange, education.field_of_study, Strontium, Adult female, business.industry, Public Health, Environmental and Occupational Health, General Medicine, Environmental exposure, Environmental Exposure, medicine.disease, chemistry, Maternal Exposure, Radioactive Waste, Strontium Radioisotopes, Body Burden, Female, Pregnant Women, business, Radioactive Hazard Release

Abstract

A biokinetic model for strontium (Sr) for the pregnant woman and fetus (Sr-PWF model) has been developed for use in the quantification of doses from internal radiation exposures following maternal ingestion of Sr radioisotopes before or during pregnancy. The model relates in particular to the population of the Techa River villages exposed to significant amounts of ingested Sr radioisotopes as a result of releases of liquid radioactive wastes from the Mayak plutonium production facility (Russia) in the early 1950s. The biokinetic model for Sr metabolism in the pregnant woman was based on a biokinetic model for the adult female modified to account for changes in mineral metabolism during pregnancy. The model for non-pregnant females of all ages was developed earlier with the use of extensive data on (90)Sr-body measurements in the Techa Riverside residents. To determine changes in model parameter values to take account of changing mineral metabolism during pregnancy, data from longitudinal studies of calcium homeostasis during human pregnancy were analysed and applied. Exchanges between maternal and fetal circulations and retention in fetal skeleton and soft tissues were modelled as adaptations of previously published models, taking account of data on Sr and calcium (Ca) metabolism obtained in Russia (Southern Urals and Moscow) relating to dietary calcium intakes, calcium contents in maternal and fetal skeletons and strontium transfer to the fetus. The model was validated using independent data on (90)Sr in the fetal skeleton from global fallout as well as unique data on (90)Sr-body burden in mothers and their still-born children for Techa River residents. While the Sr-PWF model has been developed specifically for ingestion of Sr isotopes by Techa River residents, it is also more widely applicable to maternal ingestion of Sr radioisotopes at different times before and during pregnancy and different ages of pregnant women in a general population.

Published

2015

11. Development of an Improved Dose Reconstruction System for the Techa River Population Affected by the Operation of the Mayak Production Association

Author

Marina O. Degteva, N. G. Bougrov, Lynn R. Anspaugh, Elena A. Shishkina, E. I. Tolstykh, Bruce A. Napier, N. B. Shagina, M. I. Vorobiova, Valentina A. Shved, and E. E. Tokareva

Subjects

Population, Biophysics, Radiation Dosage, Risk Assessment, Whole-Body Counting, Russia, Nuclear Reactors, Radiation Monitoring, Humans, Dosimetry, Medicine, Radiology, Nuclear Medicine and imaging, Survivors, education, Proportional Hazards Models, Radioisotopes, education.field_of_study, Radiation, business.industry, Organ Specificity, Cohort, Body Burden, Dose rate, Nuclear medicine, business, Relative Biological Effectiveness, Moderate-Dose, Demography

Abstract

The Techa River Dosimetry System (TRDS) has been developed to provide estimates of dose received by approximately 30,000 members of the Extended Techa River Cohort (ETRC). Members of the ETRC were exposed beginning in 1949 to significant levels of external and internal (mainly from (90)Sr) dose but at low to moderate dose rates. Members of this cohort are being studied in an effort to test the hypothesis that exposure at low to moderate dose rates has the same ability to produce stochastic health effects as exposure at high dose rates. The current version of the TRDS is known as TRDS-2000 and is the subject of this paper. The estimated doses from (90)Sr are supported strongly by approximately 30,000 measurements made with a tooth beta-particle counter, measurements of bones collected at autopsy, and approximately 38,000 measurements made with a special whole-body counter that detects the bremsstrahlung from (90)Y. The median doses to the red bone marrow and the bone surface are 0.21 and 0.37 Gy, respectively. The maximum doses to the red bone marrow and bone surface are 2.0 and 5.2 Gy, respectively. Distributions of dose to other organs are provided and are lower than the values given above. Directions for future work are discussed.

Published

2006

12. An application ofin vivowhole body counting technique for studying strontium metabolism and internal dose reconstruction for the Techa River population

Author

V. P. Kozheurov, N. B. Shagina, Marina O. Degteva, N. G. Bougrov, and E. I. Tolstykh

Subjects

History, Radionuclide, Strontium, education.field_of_study, business.industry, Population, Radiochemistry, chemistry.chemical_element, Isotopes of strontium, Computer Science Applications, Education, Plutonium, Geography, chemistry, Dosimetry, Radiation protection, business, education, Strontium-90

Abstract

Nuclear techniques for direct assessment of internally deposited radionuclides are essential for monitoring and dosimetry of members of the public exposed due to radiation accidents. Selection of the methods for detection of internal contamination is determined by nuclear-physical characteristics of the deposits. For the population living in settlements located along the Techa River contaminated in 1950s by liquid radioactive wastes from the plutonium production complex Mayak (Southern Urals, Russia) the main dose-forming radionuclide was 90Sr. It is a bone-seeking radionuclide that incorporates in the skeleton and remains there for many years so it can be detected for long periods after the intake occurred. Measurements of pure beta-emitting 90Sr are possible through detection of bremsstrahlung from the 90Sr/90Y beta rays in the low energy range (30-160 keV) using phoswich detectors. This suggested the development of a unique whole body counter in 1974 for monitoring of the 90Sr- and 137Cs-body burden in the Techa River population with the use of phoswich detectors. Long-term observations with the WBC covering more than 38,000 measurements on over 20,000 people have been made. This has created a unique database for studying strontium and calcium metabolism and for assessment of the internal dose for residents of the Techa River settlements due to ingestion of 90Sr. This paper describes the main results obtained for the Techa River population essential for bone metabolism and dosimetry, epidemiological studies, and radiation protection.

Published

2006

13. Evaluation of Age and Gender Dependences of the Rate of Strontium Elimination 25–45 Years after Intake: Analysis of Data from Residents Living along the Techa River

Author

E. E. Tokareva, V. P. Kozheurov, E. I. Tolstykh, Lynn R. Anspaugh, Marina O. Degteva, N. B. Shagina, V.I. Zalyapin, and Bruce A. Napier

Subjects

Adult, Male, Aging, Time Factors, Metabolic Clearance Rate, Water Pollution, Radioactive, Biophysics, chemistry.chemical_element, Whole-Body Counting, Bone and Bones, Russia, Age and gender, Humans, Radiology, Nuclear Medicine and imaging, Whole-Body Counters, Aged, Sex Characteristics, Strontium, Radiation, Sex dependence, business.industry, Age Factors, Middle Aged, Isotopes of strontium, Geography, chemistry, Female, Nuclear medicine, business, Demography

Abstract

The Mayak Production Association released large amounts of 90Sr into the Techa River with peak amounts in 1950-1951. Residents near the Techa River ingested an average of approximately 3,000 kBq of 90Sr. The affected people have been followed by scientists at the Urals Research Center for Radiation Medicine. The whole-body content of 90Sr of approximately 15,000 individuals has been measured over a period of 24 years (1974-1997) using a special whole-body counter. This report evaluates the gender and age dependences of individual rates of strontium elimination. Data on persons who had been measured 12 or more times were selected for study. There were 108 men and 81 women older than 30 years who met this criterion. Individual measurement results were fitted to an exponential function and grouped mean averages of the rate of strontium elimination as a function of age for each sex were derived. For men, a significant increase (from 2.8% year(-1) to 3.2% year(-1)) in the rate of strontium elimination after age 55 years is seen. For women, the increase in the rate of elimination was significant at age 45 and reached 5.8% year(-1) after the age of 60. The results may be used to develop a gender- and age-dependent model of strontium metabolism.

Published

2003

14. Studies on the Techa river populations: dosimetry

Author

Marina O. Degteva, Bruce A. Napier, N. B. Shagina, E. I. Tolstykh, Lynn R. Anspaugh, and M. I. Vorobiova

Subjects

Radioactive Fallout, Water Pollutants, Radioactive, medicine.medical_specialty, Population, Biophysics, Russia, Cohort Studies, Bone Marrow, Environmental health, Humans, Medicine, Dosimetry, Medical physics, Radiometry, education, Nuclear Warfare, General Environmental Science, education.field_of_study, Radiation, business.industry, Dose-Response Relationship, Radiation, Environmental Exposure, Environmental exposure, Plutonium, Databases as Topic, Cohort, Radiation protection, Dose rate, business, Research center, Power Plants, Cohort study

Abstract

The combined dosimetric and epidemiologic study of the Extended Techa River Cohort (ETRC) is deemed important, as this cohort is one of a very few that can be studied to examine the question of whether there is a dose rate- reduction factor in the induction of stochastic effects by radiation. This question represents a central issue in radiation protection of workers and the public. The overall scientific hypothesis to be tested by the combined dosimetric and epidemiologic study of the ETRC is whether radiation dose delivered at low dose rates is equally as effective (in causing cancer and other stochastic effects) as the same dose delivered at high dose rates. Russian and United States scientists have been involved in collaborative research programs under the sponsorship of the U.S.-Russian Joint Coordinating Committee on Radiation Effects Research (JCCRER) since 1995. JCCRER Project 1.1 was a comprehensive program to develop improvements in the dosimetry system for the population exposed as a result of the releases of the Mayak Production Association (Mayak PA) by providing more in-depth analysis of existing data, further search of existing records for useful data, model development and testing, evaluation of uncertainties, verification of procedures, and validation studies. The projectmore » was extended in 2000 with the additional aims of further study of uncertainty of the doses with the goal of reducing uncertainty in the final dose estimates, and validation of the dose estimates, particularly the revised estimates of external dose. Russian and European scientists are also collaborating in this area. Current work is supported by the EC-Framework Programme/Research and Training Programme in the Field of Nuclear Energy. The partners include the Urals Research Center for Radiation Medicine (URCRM) and the GSF - National Research Center for Environment and Health. The purpose is to support companion epidemiologic studies of radiogenic leukemia and solid cancers.« less

Published

2002

15. Fetal organ dosimetry for the Techa River and Ozyorsk Offspring Cohorts, part 2: radionuclide S values for fetal self-dose and maternal cross-dose

Author

Marina O. Degteva, Matthew R. Maynard, Tim P. Fell, Evgenia I. Tolstykh, N. B. Shagina, and Wesley E. Bolch

Subjects

Offspring, Biophysics, Physiology, Fetal position, Biology, Radiation Dosage, Models, Biological, Russia, Cohort Studies, Fetus, Rivers, Pregnancy, medicine, media_common.cataloged_instance, Humans, Tissue Distribution, European union, Maternal-Fetal Exchange, General Environmental Science, media_common, Radioisotopes, Radionuclide, Radiation, business.industry, Phantoms, Imaging, medicine.disease, Maternal Exposure, Cohort, Female, Nuclear medicine, business, Cohort study

Abstract

One of the many objectives of the European Union's SOLO (Epidemiological Studies of Exposed Southern Urals Populations) project is to quantify the radiation dose-response following chronic in utero exposures to ionizing radiation. The project is presently conducting a pooled analysis of two cohorts of individuals born to exposed mothers-the Techa River Offspring Cohort (TROC) and the Ozyorsk Offspring Cohort (OOC). The TROC includes the offspring of mothers with external exposures to contaminated riverbanks and internal ingestions of (89)Sr, (90)Sr/(90)Y, and (137)Cs/(137m)Ba, while the OOC includes the offspring of mothers with external exposures seen within the Mayak plutonium production facilities and internal inhalation of (239)Pu and possibly (131)I. In the present study, a newly created Urals-based series of fetal and maternal models is employed to assess S values for all seven radionuclides. Among all fetal ages, S values ranged in magnitude from 10(-14) to 10(-10) Gy per Bq-s for fetal source organs and from 10(-18) to 10(-14) Gy per Bq-s from maternal source organs, depending upon particle type, particle energy, and fetal age. For a given radionuclide and fetal age, S values for fetal source organs were approximately two orders of magnitude higher than for maternal source organs. Little variation in S values was observed among fetal source organs, while variations of over 100 % with respect to the mean were observed for maternal source organs near the fetus. S value variations from maternal cross-fire were highly dependent on fetal position and separation distance from the maternal source organ. These radionuclide S values have been coupled with biokinetic models for use in cohort dose assessment within the SOLO project.

Published

2014

16. Increase in accumulation of strontium-90 in the maternal skeleton during pregnancy and lactation: analysis of the Techa River data

Author

N. B. Shagina, Marina O. Degteva, and Evgenia I. Tolstykh

Subjects

Adult, medicine.medical_specialty, Water Pollutants, Radioactive, Biophysics, Bone and Bones, Russia, Young Adult, Rivers, Pregnancy, Long period, Lactation, medicine, In vivo measurements, Humans, General Environmental Science, Radiation, business.industry, Water pollutants, Reproduction, Environmental Exposure, medicine.disease, Skeleton (computer programming), Surgery, medicine.anatomical_structure, Maternal Exposure, Strontium Radioisotopes, Body Burden, Female, business, Whole body, Demography

Abstract

The unique contamination of the Techa River (Southern Urals, Russia) in the 1950s by long-lived (90)Sr allows investigation of the accumulation of bone-seeking elements in humans. This study is based on information compiled at the Urals Research Center for Radiation Medicine (Chelyabinsk, Russia) over a long period of time. It includes the results of in vivo measurements of (90)Sr-body burden with a whole body counter (WBC), data on personal medical examinations and residence and family histories. Data on 185 women from two Techa riverside villages Muslyumovo and Brodokalmak were selected. The settlements differ in terms of (90)Sr diet intake (higher in Muslyumovo than in Brodokalmak) and ethnicity (residents were mainly Slavs in Brodokalmak and Turkic in Muslyumovo). Results of a total of 555 WBC measurements performed in 1974-1997 were available for the women studied; maximum measured values reached 40 kBq/body. The women from each settlement were subdivided into three groups according to their childbearing history: pregnancy and lactation occurred (1) during the period of maximal (90)Sr intake (1950-1951); (2) after the period of maximal intake and (3) before this period or women who were childless. An increase was found in accumulation of (90)Sr in maternal skeleton during pregnancy and lactation (group 1) by a factor of 1.5-2 in comparison with non-pregnant, non-lactating women. This result was found in both Muslyumovo and Brodokalmak samples. An increase in accumulation of toxic elements in pregnant/lactating women is associated with increased radiation/toxic doses and risk for the women's health.

Published

2013

17. Does the cortical bone resorption rate change due to 90Sr-radiation exposure? Analysis of data from Techa Riverside residents

Author

Lynn R. Anspaugh, Marina O. Degteva, Bruce A. Napier, Evgenia I. Tolstykh, and N. B. Shagina

Subjects

Adult, Male, Pathology, medicine.medical_specialty, Bone pathology, Biophysics, Physiology, Radiation Dosage, Bone resorption, Bone remodeling, Russia, Leukocyte Count, Rivers, Bone Marrow, medicine, Humans, Bone Resorption, General Environmental Science, Radiation, business.industry, Dose-Response Relationship, Radiation, Environmental Exposure, Middle Aged, Skeleton (computer programming), Resorption, medicine.anatomical_structure, Rate change, Strontium Radioisotopes, Cortical bone, Female, Bone marrow, business, Radioactive Hazard Release

Abstract

The Mayak Production Association released large amounts of (90)Sr into the Techa River (Southern Urals, Russia) with peak amounts in 1950-1951. Techa Riverside residents ingested an average of about 3,000 kBq of (90)Sr. The (90)Sr-body burden of approximately 15,000 individuals has been measured in the Urals Research Center for Radiation Medicine in 1974-1997 with use of a special whole-body counter (WBC). Strontium-90 had mainly deposited in the cortical part of the skeleton by 25 years following intake, and (90)Sr elimination occurs as a result of cortical bone resorption. The effect of (90)Sr-radiation exposure on the rate of cortical bone resorption was studied. Data on 2,022 WBC measurements were selected for 207 adult persons, who were measured three or more times before they were 50-55 years old. The individual-resorption rates were calculated with the rate of strontium recirculation evaluated as 0.0018 year(-1). Individual absorbed doses in red bone marrow (RBM) and bone surface (BS) were also calculated. Statistically significant negative relationships of cortical bone resorption rate were discovered related to (90)Sr-body burden and dose absorbed in the RBM or the BS. The response appears to have a threshold of about 1.5-Gy RBM dose. The radiation-induced decrease in bone resorption rate may not be significant in terms of health. However, a decrease in bone remodeling rate can be among several causes of an increased level of degenerative dystrophic bone pathology in exposed persons.

Published

2010

18. Individual Dose Calculations with Use of the Revised Techa River Dosimetry System TRDS-2009D

Author

Lynn R. Anspaugh, Marina O. Degteva, N. B. Shagina, M. I. Vorobiova, E. I. Tolstykh, and Bruce A. Napier

Subjects

Estimation, Geography, business.industry, Radiological weapon, Cohort, Confounding, Statistics, Dosimetry, Environmental exposure, Risk assessment, Radiation dose reconstruction, Nuclear medicine, business

Abstract

An updated deterministic version of the Techa River Dosimetry System (TRDS-2009D) has been developed to estimate individual doses from external exposure and intake of radionuclides for residents living on the Techa River contaminated as a result of radioactive releases from the Mayak plutonium facility in 1949–1956. The TRDS-2009D is designed as a flexible system that uses, depending on the input data for an individual, various elements of system databases to provide the dosimetric variables requested by the user. Several phases are included in the computation schedule. The first phase includes calculations with use of a common protocol for all cohort members based on village-average-intake functions and external dose rates; individual data on age, gender and history of residence are included in the first phase. This phase results in dose estimates similar to those obtained with system TRDS-2000 used previously to derive risks of health effects in the Techa River Cohort. The second phase includes refinement of individual internal doses for those persons who have had body-burden measurements or exposure parameters specific to the household where he/she lived on the Techa River. The third phase includes summation of individual doses from environmental exposure and from radiological examinations. The results of TRDS-2009Dmore » dose calculations have demonstrated for the ETRC members on average a moderate increase in RBM dose estimates (34%) and a minor increase (5%) in estimates of stomach dose. The calculations for the members of the ETROC indicated similar small changes for stomach, but significant increase in RBM doses (400%). Individual-dose assessments performed with use of TRDS-2009D have been provided to epidemiologists for exploratory risk analysis in the ETRC and ETROC. These data provide an opportunity to evaluate the possible impact on radiogenic risk of such factors as confounding exposure (environmental and medical), changes in the Techa River source-term data and the change of the approach to individual internal dose estimation (90Sr-body burden measurements and family correlations vs. village averages). Our further plan is to upgrade the TRDS-2009D and to complete a stochastic version of the dosimetry system.« less

Published

2009

19. An image-based skeletal tissue model for the ICRP reference newborn

Author

John Harrison, Choonsik Lee, Wesley E. Bolch, Deanna Pafundi, Christopher J Watchman, N. B. Shagina, Vincent A. Bourke, Tim P. Fell, and John P. Aris

Subjects

Models, Anatomic, Internationality, Medullary cavity, Radiation Dosage, Models, Biological, Whole-Body Counting, Imaging phantom, Bone and Bones, Skeletal tissue, Reference Values, medicine, Dosimetry, Humans, Radiology, Nuclear Medicine and imaging, Computer Simulation, Whole Body Imaging, Radiological and Ultrasound Technology, business.industry, Cartilage, Infant, Newborn, Anatomy, Skeleton (computer programming), Radiography, medicine.anatomical_structure, Cortical bone, business, Image based

Abstract

Hybrid phantoms represent a third generation of computational models of human anatomy needed for dose assessment in both external and internal radiation exposures. Recently, we presented the first whole-body hybrid phantom of the ICRP reference newborn with a skeleton constructed from both non-uniform rational B-spline and polygon-mesh surfaces (Lee et al 2007 Phys. Med. Biol. 52 3309–33). The skeleton in that model included regions of cartilage and fibrous connective tissue, with the remainder given as a homogenous mixture of cortical and trabecular bone, active marrow and miscellaneous skeletal tissues. In the present study, we present a comprehensive skeletal tissue model of the ICRP reference newborn to permit a heterogeneous representation of the skeleton in that hybrid phantom set—both male and female—that explicitly includes a delineation of cortical bone so that marrow shielding effects are correctly modeled for low-energy photons incident upon the newborn skeleton. Data sources for the tissue model were threefold. First, skeletal site-dependent volumes of homogeneous bone were obtained from whole-cadaver CT image analyses. Second, selected newborn bone specimens were acquired at autopsy and subjected to micro-CT image analysis to derive model parameters of the marrow cavity and bone trabecular 3D microarchitecture. Third, data given in ICRP Publications 70 and 89 were selected to match reference values on total skeletal tissue mass. Active marrow distributions were found to be in reasonable agreement with those given previously by the ICRP. However, significant differences were seen in total skeletal and site-specific masses of trabecular and cortical bone between the current and ICRP newborn skeletal tissue models. The latter utilizes an age-independent ratio of 80%/20% cortical and trabecular bone for the reference newborn. In the current study, a ratio closer to 40%/60% is used based upon newborn CT and micro-CT skeletal image analyses. These changes in mineral bone composition may have significant dosimetric implications when considering localized marrow dosimetry for radionuclides that target mineral bone in the newborn child.

Published

2009