Your search keyword '"Tamakuma Y"' showing total 33 results

1. Cesium concentrations in various environmental media at Namie, Fukushima

Author

Hegedűs, M., Shiroma, Y., Iwaoka, K., Hosoda, M., Suzuki, T., Tamakuma, Y., Yamada, R., Tsujiguchi, T., Yamaguchi, M., Ogura, K., Tazoe, H., Akata, N., Kashiwakura, I., and Tokonami, S.

Published

2020

2. Effectiveness of simplified dose estimation equations for triage after criticality accident—a case study of dose assessment in the JCO criticality accident

Author

Kowatari, M, primary, Kim, E, additional, Tani, K, additional, Naito, M, additional, Tamakuma, Y, additional, and Kurihara, O, additional

Published

2023

3. An In-situ Alpha Air Monitor for the Retrieval of Fuel Debris at the Fukushima Daiichi Nuclear Power Station

Author

Honda, F., primary, Tsubota, Y., additional, Tamakuma, Y., additional, Tokonami, S., additional, Ikeda-Ohno, A., additional, and Nakagawa, T., additional

Published

2021

4. Evaluation of the Influence of Thoron on Portable Radon Measurement Devices

Author

Iwaoka, K., Negami, R., Tamakuma, Y., Hosoda, M., Palad, L. J. H., Shinji Tokonami, Feliciano, C. P., and Kanda, R.

Subjects

Multidisciplinary

Abstract

Radiation exposure due to 222Rn is recognized as a matter of international concern for its health risk to humans. Portable devices for 222Rn concentration measurements, which are user-friendly, can be easily installed and provides a direct readout of values of 222Rn concentration on the built-in LCD (liquid-crystal display) and internal storage. However, there is a possibility that 220Rn can influence experiments for 222Rn measurement because of some similarity in their element properties. In this preliminary study, the influence of 220Rn on the performance of two commercial portable devices for 222Rn measurements was investigated. It was found that the indicated value for radon concentration in these devices could be affected by the presence of thoron gas.

Published

2020

5. Cesium concentrations in various environmental media at Namie, Fukushima

Author

Hegedűs, M., primary, Shiroma, Y., additional, Iwaoka, K., additional, Hosoda, M., additional, Suzuki, T., additional, Tamakuma, Y., additional, Yamada, R., additional, Tsujiguchi, T., additional, Yamaguchi, M., additional, Ogura, K., additional, Tazoe, H., additional, Akata, N., additional, Kashiwakura, I., additional, and Tokonami, S., additional

Published

2019

6. COMPARISON OF BACTERIAL FLORA IN RIVER SEDIMENTS FROM FUKUSHIMA AND AOMORI PREFECTURES BY 16S RDNA SEQUENCE ANALYSIS

Author

Yamanouchi, K, primary, Tsujiguchi, T, additional, Shiroma, Y, additional, Suzuki, T, additional, Tamakuma, Y, additional, Yamaguchi, M, additional, Sakamoto, Y, additional, Hegedűs, M, additional, Iwaoka, K, additional, Hosoda, M, additional, Kashiwakura, I, additional, Miura, T, additional, and Tokonami, S, additional

Published

2019

7. INVESTIGATION OF EXTERNAL RADIATION DOSES DURING RESIDENTS’ TEMPORAL STAY TO NAMIE TOWN, FUKUSHIMA PREFECTURE

Author

Tsujiguchi, T, primary, Shiroma, Y, additional, Suzuki, T, additional, Tamakuma, Y, additional, Yamaguchi, M, additional, Iwaoka, K, additional, Hosoda, M, additional, Tokonami, S, additional, and Kashiwakura, I, additional

Published

2019

8. COMPARATIVE STUDY ON PERFORMANCE OF VARIOUS ENVIRONMENTAL RADIATION MONITORS

Author

Tamakuma, Y, primary, Yamada, R, additional, Suzuki, T, additional, Kuroki, T, additional, Saga, R, additional, Mizuno, H, additional, Sasaki, H, additional, Iwaoka, K, additional, Hosoda, M, additional, and Tokonami, S, additional

Published

2019

9. Environmental dependence of geometrical efficiency for the scintillation cell in radon and thoron measurement.

Author

Iwaoka K, Palad LJH, Feliciano CP, Tamakuma Y, Hosoda M, Tokonami S, Kanda R, and Moritake T

Subjects

Humans, Temperature, Air Pollution, Indoor analysis, Computer Simulation, Radon Daughters analysis, Humidity, Radon analysis, Air Pollutants, Radioactive analysis, Radiation Monitoring methods, Scintillation Counting methods, Monte Carlo Method

Abstract

222Rn is recognized as a matter of international concern for human health risk. Because 220Rn as well as 222Rn coexist in the natural environment, thoron sometimes influences the experiment for radon measurement. It is important to measure radon and thoron separately to evaluate the risk of the exposure to 222Rn. As a discriminative measurement method for 222Rn and 220Rn, a simple technique with a single scintillation cell is well known. However, in recent years, the influence of atmospheric environment on the geometrical efficiency of the scintillation cell has not yet been investigated. In this study, environmental dependence of geometrical efficiency for the scintillation cell in 222Rn and 220Rn measurement was investigated using the Lucas type scintillation cell and Monte Carlo particle simulation. It was found that the influence of temperature and pressure on the geometrical efficiencies were larger than that of relative humidity., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

10. A performance comparison study between two HPGe lung counters with different detector configurations.

Author

Naito M, Tamakuma Y, Mihei Y, Yajima K, Tani K, Kim E, Kowatari M, and Kurihara O

Subjects

Humans, Plutonium analysis, Radiation Dosage, Equipment Design, Japan, Lung radiation effects, Phantoms, Imaging, Americium analysis

Abstract

This study compares the performance of old and new lung counters in the National Institutes for Quantum Sciences and Technology of Japan. The total sensitive area of the detector crystals for the new lung counter is ~15% smaller than that for the old lung counter. Minimum detectable activities (MDAs) for 241Am and 239Pu were evaluated through experiments using a Lawrence Livermore National Laboratory torso phantom. Despite differences in detector configuration, the MDAs were found to be comparable between the two lung counters. For a chest wall thickness of 2.1 cm and a counting time of 30 min, the MDAs of 241Am and 239Pu were 5.7 and 2300 Bq for the old lung counter, and 5.5 and 2600 Bq for the new lung counter, respectively. Experimental results for the relative sensitivities between left-side and right-side detectors suggested that the new lung counter offered better measurement geometry., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

11. Development of calculation tool for iodine 131 biodistribution depending on the aerosol particle distribution.

Author

Iwaoka K, Enriquez EB, Tamakuma Y, Hosoda M, Tokonami S, Feliciano CP, and Kanda R

Subjects

Tissue Distribution, Particle Size, Aerosols, Iodine Radioisotopes

Abstract

Radiation damage to tissues depends on radiation exposure levels. Therefore, we have studied accurate estimations of radiation exposure levels so far. Recently, we developed a tool that can calculate the respiratory tract deposition of radionuclides based on polydisperse particle size distribution. As a next step, there is a need for a new calculation tool for the biodistribution of radionuclides because a fraction of the radionuclides deposited in the respiratory tract is absorbed into the body. In this study, a calculation tool for iodine 131 biodistribution depending on aerosol size distribution was developed. The developed tool in this study is used with the former tool., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

12. Calibration experiments for radon in drinking water measurements using portable-type electrostatic-collection radon monitors.

Author

Hosoda M, Omori Y, Hashimoto H, Matsumoto M, Yasuoka Y, Sanada T, Oda Y, Kiso M, Sampei A, Kranrod C, Tazoe H, Akata N, Taira Y, Tamakuma Y, Yamada R, Kudo H, Shimizu M, and Tokonami S

Subjects

Calibration, Static Electricity, Reproducibility of Results, Radon analysis, Drinking Water, Radiation Monitoring methods

Abstract

Portable-type electrostatic-collection radon monitors (RAD7) are often used for in-situ measurements of radon in water. In this study, we evaluated the calibration factors and their uncertainties for two RAD7 monitors based on comparative measurements with the liquid scintillation counting method. In the first experiment, we found that both RAD7 monitors had relatively large uncertainties due to leakage of radon gas that bubbled from the gaps between the lids of the desiccant container and the glass vial. Therefore, for the second experiment, these gaps were closed as much as possible using parafilm and clay, respectively. As a result, the relative uncertainties for both RAD7 monitors were significantly decreased. Furthermore, we collected spring water samples to confirm the reliability of radon concentrations. After closing the leakage point, the uncertainty of radon concentrations in spring water we measured using the typical protocol of the RAD7 were significantly lower, which improves the measurement., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

13. Site-specific dose conversion factors for radon progeny based on ambient aerosol characteristics in an outdoor environment and a tourist cave.

Author

Tamakuma Y, Kiso M, Sampei A, Hashimoto H, Kranrod C, Hosoda M, Ooka S, Furukawa M, and Tokonami S

Subjects

Radon Daughters analysis, Aerosols, Radon analysis, Air Pollutants, Radioactive analysis, Radiation Protection, Radiation Monitoring methods

Abstract

Site-specific Dose Conversion Factors (DCFs) for radon progeny were estimated based on the aerosol measurement results in an outdoor environment and a tourist cave. The Activity Median Diameter (AMD) and unattached fraction were measured and used to calculate the effective dose per unit intake of radon progeny. The AMDs in the outdoor environment was in the range of 0.24-0.71 μm with the unattached fraction of 0.17. In the tourist cave, two peaks were found in the aerosol size distribution at nucleation and accumulation modes and the unattached fraction was measured to be 0.69 with a range of 0.36-0.85. The DCFs at the outdoor environment did not differ from those from the publication of the International Commission on Radiological Protection; however, the DCF in the tourist cave was significantly higher due to the discrepancy in the unattached fraction and the aerosol size distribution. It was found that these two factors would significantly affect the DCF so that we should be aware of it., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

14. Development of a new integrated IN-VIVO counting system at the QST.

Author

Tamakuma Y, Naito M, Yang G, Tani K, Yajima K, Kim E, Kowatari M, and Kurihara O

Subjects

Male, Humans, Thorax, Whole-Body Counting, Phantoms, Imaging, Monte Carlo Method, Americium, Germanium

Abstract

A new in-vivo counting system that functions as both a whole-body counter (WBC) and a lung counter (LC) was developed at the QST to enhance its dose assessment capability. This paper presents an overview of this system and the results of its performance tests. For use of the system as a WBC, three high purity germanium (HPGe) detectors installed in a 20-cm-thick iron shielding chamber are linearly arrayed over a subject lying on the bed, whereas two of the three HPGe detectors are placed over the subject's chest from side to side when using the system as an LC. The new in-vivo system was calibrated using three de-facto phantoms owned by the QST: an adult-male BOttle Manikin ABsorption (BOMAB) phantom, a Lawrence Livermore National Laboratory (LLNL) phantom and a Japan Atomic Energy Research Institute (JAERI) phantom. Monte Carlo simulations were also performed to determine an optimum location for the three detector array in the WBC mode and revealed that the peak efficiency for the BOMAB phantom (662 keV) was little varied as long as the middle detector was placed above the thorax and abdomen parts of the phantom. The calculated peak efficiencies agreed well with the observed peak efficiencies for photons with energies over 100 keV. For lung counting, a tentative Minimum Detectable Activity of 241Am was evaluated as 9.5 Bq for a counting time of 30 minutes, and a Japanese male subject with an average chest wall thinness (2.27 cm). The developed system is now ready for use., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

15. Response of personal dosemeters on various age-specific anthropometric phantoms under external irradiation applied to areas affected by the 2011 Fukushima Daiichi nuclear accident.

Author

Naito M, Tamakuma Y, Yajima K, Kim E, Obara S, Tani K, and Kurihara O

Subjects

Radiation Dosage, Cesium Radioisotopes, Age Factors, Fukushima Nuclear Accident

Abstract

We experimentally obtained the responses of two personal dosemeters (PDs, D-shuttle and Dose-i) attached on five age-specific phantoms under rotational irradiation geometry, which simulated an environment that was radiologically affected by the 2011 Fukushima nuclear accident using of a 137Cs source. Although the PD responses showed an angular phase shift by the PD position on the phantoms, the angular dependence was small when the contamination was widely distributed. The PD responses decreased as much as ~10% with the increase in the phantoms' body size. Although there were ~17% variations in the PD/ADE (ambient dose equivalent) ratio depending on the different PDs, this variation was due to the fact that D-shuttle was calibrated with the inclusion of a safety margin. The PD/ADE ratios were similar to the effective dose to ADE ratios for corresponding age-specific phantoms. Our results suggest that these two PDs can provide reasonable estimates for age-dependent effective doses., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

16. The new QST bioassay laboratory in Chiba, Japan.

Author

Yang G, Tamakuma Y, Naito M, Tani K, Kim E, Kowatari M, and Kurihara O

Subjects

Humans, Japan, Actinoid Series Elements analysis, Biological Assay, Laboratories

Abstract

Japan's National Institutes for Quantum Science and Technology (QST) was designated as the core radiation emergency medical support center by the country's Nuclear Regulation Authority (NRA) in 2019. One of the main missions of the QST is to maintain and improve its dose assessment capability for radiation-exposed individuals. Toward the goal of effectively fulfilling this mission, a new facility-the Dose Assessment Building for Advanced Radiation Emergency Medicine-was constructed at the Chiba base of the QST in 2020. An integrated bioassay laboratory was installed in this facility for assessing subjects' internal doses, along with a new integrated in vivo counter. The bioassay capability of the new laboratory is currently expected to screen 5-10 persons simultaneously assuming internal contamination with actinides such as Pu, Am/Cm and U, although this is dependent on the specific contamination circumstances., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

17. Oxidative Modification Status of Human Serum Albumin Caused by Chronic Low-Dose Radiation Exposure in Mamuju, Sulawesi, Indonesia.

Author

Yamaguchi M, Tatara Y, Nugraha ED, Tamakuma Y, Sato Y, Miura T, Hosoda M, Yoshinaga S, Syaifudin M, Tokonami S, and Kashiwakura I

Abstract

The recently discovered high-level natural background radiation area (HBRA) of Mamuju in Indonesia provides a unique opportunity to study the biological effects of chronic low-dose radiation exposure on a human population. The mean total effective dose in the HBRA was approximately 69.6 mSv y -1 (range: 47.1 to 115.2 mSv y -1 ), based on a re-evaluation of the individual radiation exposure dose; therefore, proteomic analyses of serum components and oxidative modification profiling of residents living in the HBRA were reconducted using liquid chromatography-tandem mass spectrometry. The analysis of the oxidative modification sequences of human serum albumin revealed significant moderate correlations between the radiation dose and the modification of 12 sequences, especially the 111th methionine, 162nd tyrosine, 356th tyrosine, and 470th methionine residues. In addition, a dose-dependent variation in 15 proteins of the serum components was detected in the serum of residents exposed to chronic low-dose radiation. These findings suggest that the alterations in the expression of specific proteins and the oxidative modification responses of serum albumin found in exposed humans may be important indicators for considering the effects of chronic low-dose radiation exposure on living organisms, implying their potential utility as biomarkers of radiation dose estimation.

Published

2022

18. INFLUENCE OF SAMPLING FLOW RATE ON THORON EXHALATION RATE MEASUREMENTS BY THE CIRCULATION METHOD.

Author

Hosoda M, Yamada R, Kobyashi H, Tamakuma Y, Nugraha ED, Hashimoto H, Negami R, Kranrod C, Omori Y, Tazoe H, Akata N, and Tokonami S

Subjects

Exhalation, Soil, Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Radiation Monitoring methods, Radon analysis

Abstract

Researchers have used various methods to obtain the exhalation rates of radon and thoron from soil and building materials. One of the typical methods for radon exhalation rate is the circulation method using an accumulation container, an external or internal sampling pump and a continuous radon monitor. However, it is necessary to consider sampling flow rate if this method is applied to exhalation rate measurement for thoron due to its short half-life. Based on a calibration experiment, the measured thoron concentrations obtained by an electrostatic collection type radon and thoron monitor (RAD7) were found to be influenced strongly by the sampling flow rate. It was also found that the thoron exhalation rate from a soil sample depended on the pressure difference which was proportional to the increasing sampling flow rate. The thoron exhalation rate measured at the generally used sampling flow rate of the internal sampling pump of the RAD7 was overestimated compared with the value at 0 L min-1., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2022

19. Detection of biological responses to low-dose radiation in humans.

Author

Yamaguchi M, Tatara Y, Nugraha ED, Ramadhani D, Tamakuma Y, Sato Y, Miura T, Hosoda M, Yoshinaga S, Syaifudin M, Kashiwakura I, and Tokonami S

Subjects

Background Radiation, Humans, Radiation Dosage, Proteomics, Radiation Exposure

Abstract

It has been considered difficult to detect the biological effects of low-dose radiation exposure below approximately 100 mSv in humans. Serum proteomic analysis and oxidative modification profiling were conducted with blood samples collected from residents of a newly discovered high-level natural background radiation area (annual effective dose approximately 50 mSv y -1 ) and normal-level area (1.22 mSv y -1 ) in Mamuju, Indonesia, where many people have been living for generations. Dose-dependent oxidative modifications in amino acid sequences of human serum albumin, especially the 162 nd and 356 th tyrosine residues and 111 th and 470 th methionine residues, were found. None of these findings have been reported in humans exposed to chronic low-dose radiation. It can be used as a biomarker not only for the assessment of the presence or absence of radiation exposure but also for dose prediction in living organisms for chronic radiation. These results suggest that traces of radiation exposure are recorded in serum albumin and that there is a possibility of a new methodology that can evaluate biological responses below 100 mSv., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

20. 222 Rn and 226 Ra Concentrations in Spring Water and Their Dose Assessment Due to Ingestion Intake.

Author

Yamada R, Hosoda M, Tabe T, Tamakuma Y, Suzuki T, Kelleher K, Tsujiguchi T, Tateyama Y, Nugraha ED, Okano A, Narumi Y, Kranrod C, Tazoe H, Iwaoka K, Yasuoka Y, Akata N, Sanada T, and Tokonami S

Subjects

Background Radiation, Eating, Radiation Dosage, Water Supply, Drinking Water analysis, Radiation Monitoring, Radon analysis, Water Pollutants, Radioactive analysis

Abstract

222 Rn and 226 Ra concentrations of less than a few to several thousands of Bq L - 1 have been observed in several underground bodies of water around the world. Although regulations for these concentrations in water have been implemented internationally, there are currently no regulations in place in Japan. However, concentrations that exceed these internationally recognized regulatory values have also been observed in Japan. In this study, concentrations in spring water in the northern part of Japan were measured and the effective dose from intake of the water was evaluated. 222 Rn concentrations were measured using a liquid scintillation counter, and 226 Ra concentrations were measured using a high purity germanium detector after chemical preparation. The measured 222 Rn concentrations (=12.7 ± 6.1 Bq L -1 ) and 226 Ra concentrations (<0.019-0.022 Bq L -1 ) did not exceed the reference values set by international and European/American organizations. A conservative estimate of the annual effective ingestion dose of 8 μSv for 222 Rn and 226 Ra obtained in this study is much smaller than the estimated overall annual effective dose of 2.2 mSv from natural radiation to the Japanese population. However, this dosage accounts for 8% of the WHO individual dosing criteria of 0.1 mSv/year for drinking water.

Published

2022

21. Comprehensive exposure assessments from the viewpoint of health in a unique high natural background radiation area, Mamuju, Indonesia.

Author

Nugraha ED, Hosoda M, Kusdiana, Untara, Mellawati J, Nurokhim, Tamakuma Y, Ikram A, Syaifudin M, Yamada R, Akata N, Sasaki M, Furukawa M, Yoshinaga S, Yamaguchi M, Miura T, Kashiwakura I, and Tokonami S

Subjects

Cross-Sectional Studies, Gamma Rays adverse effects, Humans, Indonesia, Life Style, Radiation Dosage, Radiation Exposure prevention & control, Radiation Protection methods, Radon analysis, Risk Factors, Background Radiation adverse effects, Radiation Exposure adverse effects, Radiation Exposure analysis, Risk Assessment methods

Abstract

Mamuju is one of the regions in Indonesia which retains natural conditions but has relatively high exposure to natural radiation. The goals of the present study were to characterize exposure of the entire Mamuju region as a high natural background radiation area (HNBRA) and to assess the existing exposure as a means for radiation protection of the public and the environment. A cross-sectional study method was used with cluster sampling areas by measuring all parameters that contribute to external and internal radiation exposures. It was determined that Mamuju was a unique HNBRA with the annual effective dose between 17 and 115 mSv, with an average of 32 mSv. The lifetime cumulative dose calculation suggested that Mamuju residents could receive as much as 2.2 Sv on average which is much higher than the average dose of atomic bomb survivors for which risks of cancer and non-cancer diseases are demonstrated. The study results are new scientific data allowing better understanding of health effects related to chronic low-dose-rate radiation exposure and they can be used as the main input in a future epidemiology study., (© 2021. The Author(s).)

Published

2021

22. Support activities in Namie Town, Fukushima undertaken by Hirosaki University.

Author

Tokonami S, Miura T, Akata N, Tazoe H, Hosoda M, Chutima K, Kudo H, Ogura K, Fujishima Y, Tamakuma Y, Shimizu M, Kikuchi K, and Kashiwakura I

Subjects

Humans, Radon Daughters analysis, Universities, Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Radiation Monitoring, Radiation Protection, Radon analysis

Abstract

This paper does not necessarily reflect the views of the International Commission on Radiological Protection.Several radiation monitoring research projects are underway on dose assessment, biological analysis, and risk communication under an agreement with Namie Town. Indoor radon and thoron progeny concentrations have been measured using passive-type monitors to estimate internal doses due to inhalation. In addition, airborne radiocaesium concentrations at five points in Namie Town have been analysed using a high-purity germanium detector to estimate internal doses for comparison with radon. External radiation doses from natural and artificial radionuclides have also been estimated using an in-situ gamma-ray spectrometer. Other support activities are mentioned briefly in this article.

Published

2021

23. Long-Term Measurements of Radon and Thoron Exhalation Rates from the Ground Using the Vertical Distributions of Their Activity Concentrations.

Author

Modibo OB, Tamakuma Y, Suzuki T, Yamada R, Zhuo W, Kranrod C, Iwaoka K, Akata N, Hosoda M, and Tokonami S

Subjects

Exhalation, Housing, Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Radiation Monitoring, Radon analysis, Soil Pollutants, Radioactive analysis

Abstract

A long-term measurement technique of radon exhalation rate was previously developed using a passive type radon and thoron discriminative monitor and a ventilated type accumulation chamber. In the present study, this technique was applied to evaluate the thoron exhalation rate as well, and long-term measurements of radon and thoron exhalation rates were conducted for four years in Gifu Prefecture. The ventilated type accumulation chamber (0.8 × 0.8 × 1.0 m 3 ) with an open bottom was embedded 15 cm into the ground. The vertical distributions of radon and thoron activity concentrations from the ground were obtained using passive type radon-thoron discriminative monitors (RADUETs). The RADUETs were placed at 1, 3, 10, 30, and 80 cm above the ground inside the accumulation chamber. The measurements were conducted from autumn 2014 to autumn 2018. These long-term results were found to be in good agreement with the values obtained by another methodology. The radon exhalation rates from the ground showed a clearly seasonal variation. Similar to findings of previous studies, radon exhalation rates from summer to autumn were relatively higher than those from winter to spring. In contrast, thoron exhalation rates were not found to show seasonal variation.

Published

2021

24. Discriminative Measurement of Absorbed Dose Rates in Air from Natural and Artificial Radionuclides in Namie Town, Fukushima Prefecture.

Author

Ogura K, Hosoda M, Tamakuma Y, Suzuki T, Yamada R, Negami R, Tsujiguchi T, Yamaguchi M, Shiroma Y, Iwaoka K, Akata N, Shimizu M, Kashiwakura I, and Tokonami S

Subjects

Japan, Nuclear Power Plants, Radiation Dosage, Radioisotopes, Fukushima Nuclear Accident, Radiation Monitoring

Abstract

Ten years have elapsed since the accident at the Fukushima Daiichi Nuclear Power Plant in 2011, and the relative contribution of natural radiation is increasing in Fukushima Prefecture due to the reduced dose of artificial radiation. In order to accurately determine the effective dose of exposure to artificial radiation, it is necessary to evaluate the effective dose of natural as well as artificial components. In this study, we measured the gamma-ray pulse-height distribution over the accessible area of Namie Town, Fukushima Prefecture, and evaluated the annual effective dose of external exposure by distinguishing between natural and artificial radionuclides. The estimated median (range) of absorbed dose rates in air from artificial radionuclides as of 1 April 2020, is 133 (67-511) nGy h -1 in the evacuation order cancellation zone, and 1306 (892-2081) nGy h -1 in the difficult-to-return zone. The median annual effective doses of external exposures from natural and artificial radionuclides were found to be 0.19 and 0.40 mSv in the evacuation order cancellation zone, and 0.25 and 3.9 mSv in the difficult-to-return zone. The latest annual effective dose of external exposure discriminated into natural and artificial radionuclides is expected to be utilized for radiation risk communication.

Published

2021

25. Radon Activity Concentrations in Natural Hot Spring Water: Dose Assessment and Health Perspective.

Author

Nugraha ED, Hosoda M, Mellawati J, Untara U, Rosianna I, Tamakuma Y, Modibo OB, Kranrod C, Kusdiana K, and Tokonami S

Subjects

Humans, Indonesia, Radiation Dosage, Water, Hot Springs, Radiation Monitoring, Radon analysis, Water Pollutants, Radioactive analysis

Abstract

The world community has long used natural hot springs for tourist and medicinal purposes. In Indonesia, the province of West Java, which is naturally surrounded by volcanoes, is the main destination for hot spring tourism. This paper is the first report on radon measurements in tourism natural hot spring water in Indonesia as part of radiation protection for public health. The purpose of this paper is to study the contribution of radon doses from natural hot spring water and thereby facilitate radiation protection for public health. A total of 18 water samples were measured with an electrostatic collection type radon monitor (RAD7, Durridge Co., USA). The concentration of radon in natural hot spring water samples in the West Java region, Indonesia ranges from 0.26 to 31 Bq L -1 . An estimate of the annual effective dose in the natural hot spring water area ranges from 0.51 to 0.71 mSv with a mean of 0.60 mSv for workers. Meanwhile, the annual effective dose for the public ranges from 0.10 to 0.14 mSv with an average of 0.12 mSv. This value is within the range of the average committed effective dose from inhalation and terrestrial radiation for the general public, 1.7 mSv annually.

Published

2021

26. A unique high natural background radiation area - Dose assessment and perspectives.

Author

Hosoda M, Nugraha ED, Akata N, Yamada R, Tamakuma Y, Sasaki M, Kelleher K, Yoshinaga S, Suzuki T, Rattanapongs CP, Furukawa M, Yamaguchi M, Iwaoka K, Sanada T, Miura T, Kusdiana, Iskandar D, Pudjadi E, Kashiwakura I, and Tokonami S

Subjects

Background Radiation, Humans, Indonesia, Radiation Dosage, Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Radiation Monitoring, Radon analysis

Abstract

The biological effects of low dose-rate radiation exposures on humans remains unknown. In fact, the Japanese nation still struggles with this issue after the Fukushima Dai-ichi Nuclear Power Plant accident. Recently, we have found a unique area in Indonesia where naturally high radiation levels are present, resulting in chronic low dose-rate radiation exposures. We aimed to estimate the comprehensive dose due to internal and external exposures at the particularly high natural radiation area, and to discuss the enhancement mechanism of radon. A car-borne survey was conducted to estimate the external doses from terrestrial radiation. Indoor radon measurements were made in 47 dwellings over three to five months, covering the two typical seasons, to estimate the internal doses. Atmospheric radon gases were simultaneously collected at several heights to evaluate the vertical distribution. The absorbed dose rates in air in the study area vary widely between 50 nGy h -1 and 1109 nGy h -1 . Indoor radon concentrations ranged from 124 Bq m -3 to 1015 Bq m -3 . That is, the indoor radon concentrations measured exceed the reference levels of 100 Bq m -3 recommended by the World Health Organization. Furthermore, the outdoor radon concentrations measured were comparable to the high indoor radon concentrations. The annual effective dose due to external and internal exposures in the study area was estimated to be 27 mSv using the median values. It was found that many residents are receiving radiation exposure from natural radionuclides over the dose limit for occupational exposure to radiation workers. This enhanced outdoor radon concentration might be as a result of the stable atmospheric conditions generated at an exceptionally low altitude. Our findings suggest that this area provides a unique opportunity to conduct an epidemiological study related to health effects due to chronic low dose-rate radiation exposure., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

27. CAESIUM RETENTION CHARACTERISTICS OF KNIFC-PAN RESIN FROM RIVER WATER.

Author

Hegedűs M, Tazoe H, Yang G, Tamakuma Y, Hosoda M, Akata N, and Tokonami S

Subjects

Cesium, Ion Exchange Resins, Water, Fresh Water, Water Pollutants, Chemical analysis

Abstract

The caesium retention characteristics of a potassium-nickel hexacyanoferrate resin in a polyacrylnitrile (KNiFC-PAN) matrix were tested in fresh water over the range of 2.5-400 mL min-1. The experimental setup used 2 mL resin and 4-L aliquots of freshwater samples. The results showed nearly 100% retention at speeds below 10 mL min-1, above 80% up to 100 mL min-1, and approached 50% at 400 mL min-1. Using 100 mL min-1 flow rate and KNiFC-PAN resin in a well-type HPGe detector, the minimum detectable concentration was reduced to 3 mBq kg-1 for 4-L aliquots of water samples from the previous 15 mBq kg-1 achieved by Powdex ion-exchange resin and a planar type HPGe detector., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2020

28. Passive-Type Radon Monitor Constructed Using a Small Container for Personal Dosimetry.

Author

Tamakuma Y, Kranrod C, Suzuki T, Watanabe Y, Ploykrathok T, Negami R, Nugraha ED, Iwaoka K, Janik M, Hosoda M, and Tokonami S

Subjects

Housing, Radon Daughters analysis, Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Radiation Monitoring, Radon analysis

Abstract

The International Commission on Radiological Protection (ICRP) recently recommended a new dose conversion factor for radon based on the latest epidemiological studies and dosimetric model. It is important to evaluate an inhalation dose from radon and its progeny. In the present study, a passive radon personal monitor was designed using a small container for storing contact lenses and its performance was evaluated. The conversion factor for radon ( 222 Rn), the effect of thoron ( 220 Rn) concentration and the air exchange rate were evaluated using the calibration chamber at Hirosaki University. The minimum and maximum detectable radon concentrations were calculated. The conversion factor was evaluated as 2.0 ± 0.3 tracks cm -2 per kBq h m -3 ; statistical analyses of results showed no significant effect from thoron concentration. The minimum and maximum detectable radon concentrations were 92 Bq m -3 and 231 kBq m -3 for a measurement period of three months, respectively. The air exchange rate was estimated to be 0.26 ± 0.16 h -1 , whose effect on the measured time-integrated radon concentration was small. These results indicate that the monitor could be used as a wearable monitor for radon measurements, especially in places where radon concentrations may be relatively high, such as mines and caves.

Published

2020

29. Importance of Discriminative Measurement for Radon Isotopes and Its Utilization in the Environment and Lessons Learned from Using the RADUET Monitor.

Author

Kranrod C, Tamakuma Y, Hosoda M, and Tokonami S

Subjects

Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Cameroon, Housing, Radon Daughters analysis, Radiation Monitoring, Radon analysis

Abstract

Radon ( 222 Rn) and thoron ( 220 Rn), sources of natural background radiation, have been the subjects of long-standing studies, including research into radon and thoron as major causes of lung cancer at domestic and international levels. In this regard, radon and thoron measurement studies have been widely conducted all over the world. Generally, the techniques used relate to passive nuclear track detectors. Some surveys have shown that passive monitors for radon are sensitive to thoron, and hence some measured results have probably overestimated radon concentrations. This study investigated radon and thoron measurements in domestic and international surveys using the passive radon-thoron discriminative monitor, commercially named RADUET. This paper attempts to provide an understanding of discriminative measurements of radon isotopes and to present an evidence-based roadmap.

Published

2020

30. Impact of Wind Speed on Response of Diffusion-Type Radon-Thoron Detectors to Thoron.

Author

Omori Y, Tamakuma Y, Nugraha ED, Suzuki T, Saputra MA, Hosoda M, and Tokonami S

Subjects

Air Pollution, Indoor analysis, Diffusion, Wind, Air Pollutants, Radioactive analysis, Radiation Monitoring, Radon analysis

Abstract

Air exchange through a porous medium depends partly on a pressure gradient induced in it, i.e., air-flow conditions of the outer air. Consequently, response of diffusion-type detectors to radon and thoron may vary with air-flow conditions surrounding the detectors. This effect may be significant for thoron measurement because thoron has a shorter half-life than radon. The present study examined response of diffusion-type detectors (RADUETs and one AlphaGUARD) to thoron with respect to wind speed using a thoron calibration chamber. Response of RADUETs to thoron increased with wind speed. Response of the AlphaGUARD increased with wind speed, but it became constant at a high wind speed. Different response trends to thoron between the RADUETs and the AlphaGUARD could be qualitatively explained by flow states induced by the pressure gradient in the filter or the sponge of these detectors. For RADUETs, laminar (Darcy) flow was induced in the sponge in the examined wind speed range, which meant that thoron entry into the detector increased with wind speed. For the AlphaGUARD, laminar flow was induced in the filter in the low wind speed range, whereas flow was changed to turbulent (non-Darcy) flow at a high wind speed for which thoron entry into the detector did not depend on wind speed.

Published

2020

31. Comparative Study of Performance using Five Different Gamma-ray Spectrometers for Thyroid Monitoring under Nuclear Emergency Situations.

Author

Hosoda M, Iwaoka K, Tokonami S, Tamakuma Y, Shiroma Y, Fukuhara T, Imajyo Y, Taniguchi J, Akata N, Osanai M, Tsujiguchi T, Yamaguchi M, and Kashiwakura I

Subjects

Humans, Nuclear Reactors, Quantum Dots, Radiation Monitoring instrumentation, Radionuclide Imaging, Safety Management, Emergencies, Iodine Radioisotopes analysis, Phantoms, Imaging, Radiation Monitoring methods, Scintillation Counting instrumentation, Spectrometry, Gamma instrumentation, Thyroid Gland radiation effects

Abstract

A performance test was carried out using five different gamma-ray spectrometers applicable to thyroid monitoring. The energy resolution and efficiency for 7.6-cm × 7.6-cm NaI(Tl), 5.1-cm × 5.1-cm CeBr3, 3.8-cm × 3.8-cm SrI2(Eu), and 2.5-cm × 2.5-cm SrI2(Eu) gamma-ray scintillation spectrometers and a CdTe gamma-ray semiconductor spectrometer were evaluated using the Oak Ridge Institute for Nuclear Studies thyroid-neck phantom with a mock I source for prompt thyroid monitoring after a nuclear emergency. The respective energy resolutions of the full-energy peak for ~0.360 MeV of 3.8-cm × 3.8-cm SrI2(Eu) and 2.5-cm × 2.5-cm SrI2(Eu) scintillation spectrometers were 4.2% and 4.3%, and these values were very close to the value obtained by the CdTe semiconductor spectrometer. The efficiencies of four of the gamma-ray spectrometers were compared based on the efficiency of the 7.6-cm × 7.6-cm NaI(Tl) scintillation spectrometer at 0 cm from the phantom surface, and these values were ~70% for 5.1-cm × 5.1-cm CeBr3, ~30% for 3.8-cm × 3.8-cm SrI2(Eu), 10% for 2.5-cm × 2.5-cm SrI2(Eu) and 2% for 1-cm × 0.1-cm CdTe. Furthermore, the detection limits at various dose rates for the four gamma-ray scintillation spectrometers were evaluated using the method based on International Organization for Standardization publication ISO 11929:2010.

Published

2019

32. Measurement system for alpha and beta emitters with continuous air sampling under different exposure situations.

Author

Yamada R, Tamakuma Y, Iwaoka K, Hosoda M, Shiroma Y, Akata N, Mizuno H, Yamada K, Kuroki T, and Tokonami S

Abstract

In the present study, a continuous radioactive aerosol measurement system (CRAMS) was developed for measurements of radioactive plume (e.g. 131 I, 134 Cs and 137 Cs) under the emergency situation, and measurements of radon/thoron progeny under the existing situation. As a result, it is suggested that the CRAMS could follow the variation of radon concentration, and the detection limit of the CRAMS under ambient dose equivalent rate of 20µSvh -1 , where the temporary evacuation is required within one week in the Japanese regulation, was evaluated to be 129Bqm -3 in the manner of ISO11929., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

33. Characteristic of thoron ( 220 Rn) in environment.

Author

Hosoda M, Kudo H, Iwaoka K, Yamada R, Suzuki T, Tamakuma Y, and Tokonami S

Abstract

This paper describes importance of 220 Rn (hereafter thoron) progeny measurement for the dose estimation. Although the spatial distribution of thoron activity concentration strongly depends on the distance from wall surface as an indoor thoron source), a homogeneous distribution was expected to be observed for 212 Pb activity concentration which was one of thoron progeny. Furthermore, the mean equilibrium factor for thoron obtained by the recent measurements in several countries widely ranged from 0.008 to 0.07. Therefore the bronchial dose evaluated using the equilibrium factor and activity concentration of thoron instead of thoron progeny activity concentration may have a large uncertainty. Thus, the thoron progeny measurement should be investigated at each measurement point for the dose estimation for thoron., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017