Your search keyword '"Tryapitsina GA"' showing total 8 results

1. Humanized Mice as a Model to Assess the Response of Human Hematopoietic Stem Cells to Irradiation.

Author

Atamanyuk NI, Andreev SS, Peretykin AA, Styazhkina EV, Obvintseva NA, Tryapitsina GA, and Pryakhin EA

Subjects

Humans, Animals, Mice, Mice, SCID, Hematopoietic Stem Cells, Mice, Inbred NOD, Whole-Body Irradiation, Fetal Blood, Transplantation, Heterologous, Antigens, CD34, Hematopoietic Stem Cell Transplantation

Abstract

NOD SCID mice were humanized by transplanting human hematopoietic cells isolated from umbilical cord blood. A dose-dependent death of hematopoietic cells and their subsequent recovery were shown after acute external γ-irradiation in the model of humanized mice. The proposed approach can be used for preclinical studies of radioprotective agents and for assessment of the impact of adverse factors on the survival rate and functional properties of human hematopoietic stem cells in vivo., (© 2023. Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

2. Fish otoliths as biological dosimeter: internal dose calculation.

Author

Shishkina EA, Ivanov DV, Biryukhova UD, Pryakhin EA, and Tryapitsina GA

Subjects

Animals, Strontium Radioisotopes analysis, Hydroxyapatites analysis, Water, Otolithic Membrane, Radiation Dosimeters

Abstract

Otoliths are organs used by fish for hearing and keeping balance. They consist of biogenic crystals of hydroxyapatite and do not contain any living cells. Upon exposure to ionizing radiation, otolith hydroxyapatite accumulates radiation-induced stable CO 2 - radicals whose amount is proportional to absorbed dose. In electron paramagnetic resonance (EPR) dosimetry, carbonate ions are registered and, hence, the total accumulated dose in the fish otolith can be quantified. Therefore, otoliths can be used as individual fish dosimeters to support radiobiological and radioecological studies. An important aspect of otolith-based EPR dosimetry on fish from contaminated water bodies is the potential presence of bone-seeking 90 Sr. Consequently, cumulative absorbed doses measured with EPR in otoliths may reflect the superposition of internal exposure to 90 Sr/ 90 Y and external exposure due to radionuclides circulating in soft tissue of the fish as well as due to environmental contamination. The objective of the present study was to develop a method that allows for an assessment of the contribution of 90 Sr to the total dose in otolith. The method has been tested using otoliths from seven fish taken from reservoirs located in the Southern Urals contaminated with radionuclides including 90 Sr. It has been shown that dose to otoliths is largely determined by 90 Sr in the hydroxyapatite. The internal dose component can be calculated using activity concentration-to-dose conversion factors, which vary slightly in the range of 2.0-2.8 × 10 -3  Gy year -1 per Bq g -1 depending on fish species and age. Internal doses to fish from water bodies with different levels of 90 Sr contamination were calculated in the range from 2 mGy to ~ 200 Gy. External dose contribution was derived for two fish only to be about 100 and 40 Gy. It is concluded that EPR dosimetry on fish otoliths is a promising tool when external exposure prevails or is comparable to internal exposure due to 90 Sr., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

3. The radiation exposure of fish in the period of the Techa river peak contamination.

Author

Shishkina EA, Pryakhin EA, Sharagin PA, Osipov DI, Tryapitsina GA, Atamanyuk NI, Egoreichenkov EA, Trapeznikov AV, Rudolfsen G, Teien HC, and Sneve MK

Subjects

Adaptation, Physiological, Animals, Female, Male, Models, Theoretical, Radiation Monitoring, Rivers, Russia, Cyprinidae, Perches, Radiation Exposure, Radioisotopes, Water Pollutants, Radioactive

Abstract

Waterborne radioactive releases into the Techa River from the Mayak Production Association in Russia during 1949-1956 resulted in downstream contamination of the river ecosystem. The discharged liquid waste contained both short-lived isotopes ( 95 Zr, 95 Nb, 103,106 Ru, 141,144 Ce, 91 Y, 89 Sr and 140 Ba with half-life from 3 days to 1.02 years) and the long-lived 90 Sr and 137 Cs (half-life - 28.79 y and 30.07 y, respectively). Even now, when two half-lives of 90 Sr and 137 Cs have passed, the contamination in the upper river region (about 70 km from the source of releases) is still relatively high. Current anthropogenic dose rates calculated for the fish of the Techa River depend on the distance along the stream and decrease from 150 to 3 μGy day -1 . Radiation exposure of fish is expected to have been much higher at the time of the releases. The aim of the study was to evaluate the dose rates for the most common fish species of the river, viz., roach (Rutilus rutilus), perch (Perca fluviatilis) and pike (Esox lucius), in the period of peak contamination of the upper reaches of the Techa River from 1950 to 1951. To achieve this objective, calculation of both internal and external dose rates was performed. For dose rate calculation, the contamination of the river compartments was modeled, body-size dependent dose coefficients were evaluated, morphometric data were analyzed. Maximum dose rates were obtained for roach; minimum - for pike, it depends on fish lifestyle (time spent at the bottom). In the period before September 1950, fish of the upper reaches are assessed to have been exposed to dose rates exceeding the screening level equal to 240 μGy day -1 . From September 1950 up to the end of 1952 the fish dose rates along the Techa River were found to be close to the UNSCEAR threshold equal to 9.6 × 10 3  μGy day -1 or even much more higher (up to 1.9 × 10 5  μGy day -1 ). Extremely high historical dose rates did not lead to the difference in fish size and fish growth rate currently observed in the Techa River and in the comparison waterbody (the Miass River). Discussion includes the description of radiation effects observed currently in the river fish. Today the effects observed in hematopoietic system may be the consequence of radiation exposure of fish over several generations. For example, long term dwelling of fish in the radioactively contaminated environment leads to their adaptation to chronic radiation exposure. At the same time, an increase their sensitivity and decrease their adaptive capacity to respond to other stress factors can be observed., (Copyright © 2019. Published by Elsevier Ltd.)

Published

2019

4. [Assessment of Erythropoiesis Status in Roach (Rutilus rutilus) of the Radioactively Contaminated Techa River].

Author

Tryapitsina GA, Osipov DI, Yegoreichenkov EA, Shishkina EA, Rudolfsen G, Teien HC, Sneve M, Pryakhin EA, and Akleyev AV

Subjects

Animals, Erythrocytes pathology, Erythrocytes radiation effects, Geologic Sediments, Radioisotopes adverse effects, Seasons, Beta Particles adverse effects, Cyprinidae blood, Erythropoiesis radiation effects, Water Pollutants, Radioactive adverse effects

Abstract

At present volumetric activity of β-emitting radionuclides in water at various locations of the Techa River ranges from 5 to 40-Bq/L; a specific activity of β-emitting radionuclides in the bottom sediments at various locations ranges 10 Ito 106 Bq/kg dry weight. A significant increase of the erythroblast content in blood as compared to that in the roach from the reference watercourse (the Miass River) was observed during spawning in the spring. Due to this fact the number of erythrocytes was equal to that in the control animals under chronic radiation exposure at the dose rates of 0.9 and 16 μGy/day, and was insufficient at the dose rate of 108 gGy/day. During summer feeding no changes in the indexes of erythropoiesis in roach were observed under chronic radiation exposure at the dose rate of 0.9 μGy/day; the number of erythrocytes in the peripheral blood declines when the dose rates are 16 and 108 μGy/day. When performing a regression analysis, we revealed a dose-rate-dependent decrease in the absolute number of erythrocytes, normocytes, polychromatocytes, dividing and non-dividing erythroid cells in the peripheral blood of roach from the Techa River and an increase of a relative number of normochromatophylic erythrocytes.

Published

2017

5. Evaluation of distribution coefficients and concentration ratios of (90)Sr and (137)Cs in the Techa River and the Miass River.

Author

Shishkina EA, Pryakhin EA, Popova IY, Osipov DI, Tikhova Y, Andreyev SS, Shaposhnikova IA, Egoreichenkov EA, Styazhkina EV, Deryabina LV, Tryapitsina GA, Melnikov V, Rudolfsen G, Teien HC, Sneve MK, and Akleyev AV

Subjects

Animals, Fishes, Gastropoda, Geologic Sediments analysis, Radiation Monitoring, Russia, Seaweed, Cesium Radioisotopes analysis, Rivers chemistry, Strontium Radioisotopes analysis, Water Pollutants, Radioactive analysis

Abstract

Empirical data on the behavior of radionuclides in aquatic ecosystems are needed for radioecological modeling, which is commonly used for predicting transfer of radionuclides, estimating doses, and assessing possible adverse effects on species and communities. Preliminary studies of radioecological parameters including distribution coefficients and concentration ratios, for (90)Sr and (137)Cs were not in full agreement with the default values used in the ERICA Tool and the RESRAD BIOTA codes. The unique radiation situation in the Techa River, which was contaminated by long-lived radionuclides ((90)Sr and (137)Cs) in the middle of the last century allows improved knowledge about these parameters for river systems. Therefore, the study was focused on the evaluation of radioecological parameters (distribution coefficients and concentration ratios for (90)Sr and (137)Cs) for the Techa River and the Miass River, which is assumed as a comparison waterbody. To achieve the aim the current contamination of biotic and abiotic components of the river ecosystems was studied; distribution coefficients for (90)Sr and (137)Cs were calculated; concentration ratios of (90)Sr and (137)Cs for three fish species (roach, perch and pike), gastropods and filamentous algae were evaluated. Study results were then compared with default values available for use in the well-known computer codes ERICA Tool and RESRAD BIOTA (when site-specific data are not available). We show that the concentration ratios of (137)Cs in whole fish bodies depend on the predominant type of nutrition (carnivores and phytophagous). The results presented here are useful in the context of improving of tools for assessing concentrations of radionuclides in biota, which could rely on a wider range of ecosystem information compared with the process limited the current versions of ERICA and RESRAD codes. Further, the concentration ratios of (90)Sr are species-specific and strongly dependent on Ca(2+) concentration in water. The universal characteristic allows us to combine the data of fish caught in the water with different mineralization by multiplying the concentration of Ca(2+). The concentration ratios for fishes were well-fitted by Generalized Logistic Distribution function (GLD). In conclusion, the GLD can be used for probabilistic modeling of the concentration ratios in freshwater fishes to improve the confidence in the modeling results. This is important in the context of risk assessment and regulatory., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

6. Characterization of biocenoses in the storage reservoirs of liquid radioactive wastes of Mayak PA. Initial descriptive report.

Author

Pryakhin EA, Mokrov YG, Tryapitsina GA, Ivanov IA, Osipov DI, Atamanyuk NI, Deryabina LV, Shaposhnikova IA, Shishkina EA, Obvintseva NA, Egoreichenkov EA, Styazhkina EV, Osipova OF, Mogilnikova NI, Andreev SS, Tarasov OV, Geras'kin SA, Trapeznikov AV, and Akleyev AV

Subjects

Radioisotopes analysis, Russia, Water Pollutants, Radioactive analysis, Biota, Fresh Water analysis, Geologic Sediments analysis, Radioactive Waste analysis, Radioisotopes metabolism, Water Pollutants, Radioactive metabolism

Abstract

As a result of operation of the Mayak Production Association (Mayak PA), Chelyabinsk Oblast, Russia, an enterprise for production and separation of weapon-grade plutonium in the Soviet Union, ecosystems of a number of water bodies have been radioactively contaminated. The article presents information about the current state of ecosystems of 6 special industrial storage reservoirs of liquid radioactive waste from Mayak PA: reservoirs R-3, R-4, R-9, R-10, R-11 and R-17. At present the excess of the radionuclide content in the water of the studied reservoirs and comparison reservoirs (Shershnyovskoye and Beloyarskoye reservoirs) is 9 orders of magnitude for (90)Sr and (137)Cs, and 6 orders of magnitude for alpha-emitting radionuclides. According to the level of radioactive contamination, the reservoirs of the Mayak PA could be arranged in the ascending order as follows: R-11, R-10, R-4, R-3, R-17 and R-9. In 2007-2012 research of the status of the biocenoses of these reservoirs in terms of phytoplankton, zooplankton, bacterioplankton, zoobenthos, aquatic plants, ichthyofauna, avifauna parameters was performed. The conducted studies revealed decrease in species diversity in reservoirs with the highest levels of radioactive and chemical contamination. This article is an initial descriptive report on the status of the biocenoses of radioactively contaminated reservoirs of the Mayak PA, and is the first article in a series of publications devoted to the studies of the reaction of biocenoses of the fresh-water reservoirs of the Mayak PA to a combination of natural and man-made factors, including chronic radiation exposure., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

7. Characteristics of phytoplankton in Lake Karachay, a storage reservoir of medium-level radioactive waste.

Author

Atamanyuk NI, Osipov DI, Tryapitsina GA, Deryabina LV, Stukalov PM, Ivanov IA, and Pryakhin EA

Subjects

Biodiversity, Radiation Dosage, Radiation Monitoring, Russia, Lakes, Phytoplankton radiation effects, Radioactive Waste adverse effects, Radioactive Waste analysis, Water Pollutants, Radioactive adverse effects, Water Pollutants, Radioactive analysis

Abstract

The status of the phytoplankton community in Lake Karachay, a storage reservoir of liquid medium-level radioactive waste from the Mayak Production Association, Chelyabinsk Region, Russia, is reviewed. In 2010, the concentration of Sr in water of this reservoir was found to be 6.5 × 10(6) Bq L, the concentration of 137Cs was 1.6 × 10(7) Bq L, and total alpha activity amounted to 3.0 × 10(3) Bq L. An increased level of nitrates was observed in the reservoir-4.4 g L. It has been demonstrated that in this reservoir under the conditions of the maximum contamination levels known for aquatic ecosystems in the entire biosphere, a phytoplankton community exists that has a pronounced decline in species diversity, almost to the extent of a monoculture of widely-spread thread eurytopic cyanobacteria Geitlerinema amphibium.

Published

2012

8. Status of ecosystems in radioactive waste reservoirs of the Mayak Production Association in 2009.

Author

Pryakhin EA, Tryapitsina GA, Deryabina LV, Atamanyuk NI, Stukalov PM, Ivanov IA, Kostyuchenko VA, and Akleyev AV

Subjects

Animals, Radioactive Waste adverse effects, Russia, Ecosystem, Nuclear Reactors, Radiation Monitoring, Radioactive Waste analysis

Abstract

Liquid radioactive waste from the Mayak Production Association (Chelyabinsk Region, Russia) is contained in industrial reservoirs (R-11, R-10, R-4, R-17, and R-9) that have different levels of radioactive contamination, increased from R-11 to R-17. A study of the ecosystems in these reservoirs was performed in 2009 to determine if there was any association with the level of contamination. No significant change in the status of biota was found in the reservoir with the lowest radionuclide concentrations (R-11) in comparison to other reservoirs in the region with a similar geography that are unaffected by radioactive contamination. In reservoir R-10, changes in the zoobenthos indices were registered. In reservoir R-4, changes in the zoobenthos and zooplankton communities were registered. In reservoir R-17, there was no ichthyofauna, but strong changes in the phytoplankton, zooplankton, and zoobenthos communities were registered. In reservoir R-9, under the conditions of the heaviest radioactive contamination of water ecosystems in the biosphere, there was no ichthyofauna, and phytoplankton and zooplankton consisted of almost a monoculture of cyanobacteriae and rotifers.

Published

2012