Doses in human organs due to alpha, beta and gamma radiations emitted by thoron progeny in the lung

D. Nikezic; V. M. Markovic; D. Krstic; P. K N Yu

doi:10.1093/rpd/ncq237

Doses in human organs due to alpha, beta and gamma radiations emitted by thoron progeny in the lung

D. Nikezic, V. M. Markovic, D. Krstic, P. K N Yu

City University of Hong Kong

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

5 Citations (Scopus)

Abstract

This work consists of two parts. In the first part, the doses in the human lung per unit exposure to thoron progeny, the dose conversion factor (DCF), was calculated. Dependence of the DCF on various environmental and subject-related parameters was investigated. The model used in these calculations was based on ICRP 66 recommendations. In the second part, the human lungs were considered as the source of beta and gamma radiation which target the other organs of the human body. The DCF to other organs was obtained as 20 μSv WLM^-1, which is larger than the DCF for radon progeny, which was 13 μSv WLM^-1. This is a consequence of the longer half-life of the relevant thoron progeny than that of the radon progeny. It is interesting to note that after the lungs, where the radiation source is actually located, muscle tissue receives the largest dose. © The Author 2010. Published by Oxford University Press. All rights reserved.

Original language	English
Article number	ncq237
Pages (from-to)	428-431
Journal	Radiation Protection Dosimetry
Volume	141
Issue number	4
DOIs	https://doi.org/10.1093/rpd/ncq237
Publication status	Published - Nov 2010

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title = "Doses in human organs due to alpha, beta and gamma radiations emitted by thoron progeny in the lung",

abstract = "This work consists of two parts. In the first part, the doses in the human lung per unit exposure to thoron progeny, the dose conversion factor (DCF), was calculated. Dependence of the DCF on various environmental and subject-related parameters was investigated. The model used in these calculations was based on ICRP 66 recommendations. In the second part, the human lungs were considered as the source of beta and gamma radiation which target the other organs of the human body. The DCF to other organs was obtained as 20 μSv WLM-1, which is larger than the DCF for radon progeny, which was 13 μSv WLM-1. This is a consequence of the longer half-life of the relevant thoron progeny than that of the radon progeny. It is interesting to note that after the lungs, where the radiation source is actually located, muscle tissue receives the largest dose. {\textcopyright} The Author 2010. Published by Oxford University Press. All rights reserved.",

author = "D. Nikezic and Markovic, {V. M.} and D. Krstic and Yu, {P. K N}",

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T1 - Doses in human organs due to alpha, beta and gamma radiations emitted by thoron progeny in the lung

AU - Nikezic, D.

AU - Markovic, V. M.

AU - Krstic, D.

AU - Yu, P. K N

PY - 2010/11

Y1 - 2010/11

N2 - This work consists of two parts. In the first part, the doses in the human lung per unit exposure to thoron progeny, the dose conversion factor (DCF), was calculated. Dependence of the DCF on various environmental and subject-related parameters was investigated. The model used in these calculations was based on ICRP 66 recommendations. In the second part, the human lungs were considered as the source of beta and gamma radiation which target the other organs of the human body. The DCF to other organs was obtained as 20 μSv WLM-1, which is larger than the DCF for radon progeny, which was 13 μSv WLM-1. This is a consequence of the longer half-life of the relevant thoron progeny than that of the radon progeny. It is interesting to note that after the lungs, where the radiation source is actually located, muscle tissue receives the largest dose. © The Author 2010. Published by Oxford University Press. All rights reserved.

AB - This work consists of two parts. In the first part, the doses in the human lung per unit exposure to thoron progeny, the dose conversion factor (DCF), was calculated. Dependence of the DCF on various environmental and subject-related parameters was investigated. The model used in these calculations was based on ICRP 66 recommendations. In the second part, the human lungs were considered as the source of beta and gamma radiation which target the other organs of the human body. The DCF to other organs was obtained as 20 μSv WLM-1, which is larger than the DCF for radon progeny, which was 13 μSv WLM-1. This is a consequence of the longer half-life of the relevant thoron progeny than that of the radon progeny. It is interesting to note that after the lungs, where the radiation source is actually located, muscle tissue receives the largest dose. © The Author 2010. Published by Oxford University Press. All rights reserved.

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DO - 10.1093/rpd/ncq237

M3 - RGC 21 - Publication in refereed journal

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SP - 428

EP - 431

JO - Radiation Protection Dosimetry

JF - Radiation Protection Dosimetry

IS - 4

M1 - ncq237

ER -

Doses in human organs due to alpha, beta and gamma radiations emitted by thoron progeny in the lung

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