Literature DB >> 20846967

Why is 220Rn (thoron) measurement important?

S Tokonami1.   

Abstract

New scientific findings based on the latest epidemiological analyses for lung cancer risk due to radon have been demonstrated. The residential radon concentration is mainly measured by passive radon detectors. Although the passive radon detector is usually designed to detect radon efficiently and exclusively, several types of them can detect thoron together with radon. In this case, these detector readings may include both radon and thoron signals. If the readings are overestimated, the lung cancer risk will be given as a biased estimate when epidemiological studies are carried out. In our experience, there seem to be no correlation among radon, thoron and thoron progeny concentrations. Therefore, one parameter cannot be estimated by the other. This study presents the importance of thoron measurement throughout results we have obtained in field and in laboratory so far.

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Year:  2010        PMID: 20846967     DOI: 10.1093/rpd/ncq246

Source DB:  PubMed          Journal:  Radiat Prot Dosimetry        ISSN: 0144-8420            Impact factor:   0.972


  14 in total

1.  Characteristics of thoron and thoron progeny in Canadian homes.

Authors:  Jing Chen; Deborah Moir; Atsuyuki Sorimachi; Shinji Tokonami
Journal:  Radiat Environ Biophys       Date:  2010-09-25       Impact factor: 1.925

2.  The concept of equivalent radon concentration for practical consideration of indoor exposure to thoron.

Authors:  Jing Chen; Deborah Moir
Journal:  Int J Environ Res Public Health       Date:  2012-01-18       Impact factor: 3.390

3.  Comparative analysis of radon, thoron and thoron progeny concentration measurements.

Authors:  Miroslaw Janik; Shinji Tokonami; Chutima Kranrod; Atsuyuki Sorimachi; Tetsuo Ishikawa; Masahiro Hosoda; James McLaughlin; Byung-Uck Chang; Yong Jae Kim
Journal:  J Radiat Res       Date:  2013-01-07       Impact factor: 2.724

Review 4.  The cellular and molecular carcinogenic effects of radon exposure: a review.

Authors:  Aaron Robertson; James Allen; Robin Laney; Alison Curnow
Journal:  Int J Mol Sci       Date:  2013-07-05       Impact factor: 5.923

5.  Dose estimation derived from the exposure to radon, thoron and their progeny in the indoor environment.

Authors:  R C Ramola; Mukesh Prasad; Tushar Kandari; Preeti Pant; Peter Bossew; Rosaline Mishra; S Tokonami
Journal:  Sci Rep       Date:  2016-08-08       Impact factor: 4.379

6.  Inhalation Dose and Source Term Studies in a Tribal Area of Wayanad, Kerala, India.

Authors:  Reshma Bhaskaran; Ravikumar C Damodaran; Visnuprasad Ashok Kumar; Jojo Panakal John; Danalakshmi Bangaru; Chitra Natarajan; Bala Sundar Sathiamurthy; Jose Mundiyanikal Thomas; Rosaline Mishra
Journal:  J Environ Public Health       Date:  2017-05-22

7.  A comparison of the dose from natural radionuclides and artificial radionuclides after the Fukushima nuclear accident.

Authors:  Masahiro Hosoda; Shinji Tokonami; Yasutaka Omori; Tetsuo Ishikawa; Kazuki Iwaoka
Journal:  J Radiat Res       Date:  2016-02-01       Impact factor: 2.724

Review 8.  Importance of Discriminative Measurement for Radon Isotopes and Its Utilization in the Environment and Lessons Learned from Using the RADUET Monitor.

Authors:  Chutima Kranrod; Yuki Tamakuma; Masahiro Hosoda; Shinji Tokonami
Journal:  Int J Environ Res Public Health       Date:  2020-06-10       Impact factor: 3.390

9.  The Importance of Direct Progeny Measurements for Correct Estimation of Effective Dose Due to Radon and Thoron.

Authors:  Guillaume Samuel Bineng; Shinji Tokonami; Masahiro Hosoda; Yvette Flore Tchuente Siaka; Hamadou Issa; Takahito Suzuki; Hiromi Kudo; Oumarou Bouba
Journal:  Front Public Health       Date:  2020-02-11

10.  An Improved Passive CR-39-Based Direct 222Rn/220Rn Progeny Detector.

Authors:  Jun Hu; Guosheng Yang; Chutima Kranrod; Kazuki Iwaoka; Masahiro Hosoda; Shinji Tokonami
Journal:  Int J Environ Res Public Health       Date:  2020-11-18       Impact factor: 3.390
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