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Cited 6 time in webofscience Cited 6 time in scopus
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Construction of new skin models and calculation of skin dose coefficients for electron exposures

Authors
Yeom, Yeon SooKim, Chan HyeongThang Tat NguyenChoi, ChansooHan, Min CheolJeong, Jong Hwi
Issue Date
Aug-2016
Publisher
한국물리학회
Keywords
ICRP reference phantom; Skin dose coefficient; Radiosensitive target layer; Voxel; Polygon-mesh
Citation
Journal of the Korean Physical Society, v.69, no.4, pp 512 - 517
Pages
6
Indexed
SCI
SCIE
SCOPUS
KCI
Journal Title
Journal of the Korean Physical Society
Volume
69
Number
4
Start Page
512
End Page
517
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/2807
DOI
10.3938/jkps.69.512
ISSN
0374-4884
1976-8524
Abstract
The voxel-type reference phantoms of the International Commission on Radiological Protection (ICRP), due to their limited voxel resolutions, cannot represent the 50-mu m-thick radiosensitive target layer of the skin necessary for skin dose calculations. Alternatively, in ICRP Publication 116, the dose coefficients (DCs) for the skin were calculated approximately, averaging absorbed dose over the entire skin depth of the ICRP phantoms. This approximation is valid for highly-penetrating radiations such as photons and neutrons, but not for weakly penetrating radiations like electrons due to the high gradient in the dose distribution in the skin. To address the limitation, the present study introduces skin polygon-mesh (PM) models, which have been produced by converting the skin models of the ICRP voxel phantoms to a high-quality PM format and adding a 50-mu m-thick radiosensitive target layer into the skin models. Then, the constructed skin PM models were implemented in the Geant4 Monte Carlo code to calculate the skin DCs for external exposures of electrons. The calculated values were then compared with the skin DCs of the ICRP Publication 116. The results of the present study show that for high-energy electrons (aeyen 1 MeV), the ICRP-116 skin DCs are, indeed, in good agreement with the skin DCs calculated in the present study. For low-energy electrons (< 1 MeV), however, significant discrepancies were observed, and the ICRP-116 skin DCs underestimated the skin dose as much as 15 times for some energies. Besides, regardless of the small tissue weighting factor of the skin (w (T) = 0.01), the discrepancies in the skin dose were found to result in significant discrepancies in the effective dose, demonstarting that the effective DCs in ICRP-116 are not reliable for external exposure to electrons.
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