Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise

Christelle Huet; Jonathan Eakins; Maria Zankl; José María Gómez-Ros; Jan Jansen; Montserrat Moraleda; Lara Struelens; Deepak K. Akar; Jorge Borbinha; Hrvoje Brkić; Duc Ky Bui; Kevin Capello; Thi My Linh Dang; Laurent Desorgher; Salvatore Di Maria; Lior Epstein; Dario Faj; Karin Fantinova; Paolo Ferrari; Sebastian Gossio; John Hunt; Zoran Jovanovic; Han Sung Kim; Dragana Krstic; Ngoc Thiem Le; Yi Kang Lee; Manohari Murugan; Minal Y. Nadar; Ngoc Quynh Nguyen; Dragoslav Nikezic; Hemant K. Patni; Denison Souza Santos; Marilyn Tremblay; Sebastian Trivino; Katarzyna Tymińska

doi:10.1016/j.radmeas.2021.106695

Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise

Christelle Huet^*, Jonathan Eakins, Maria Zankl, José María Gómez-Ros, Jan Jansen, Montserrat Moraleda, Lara Struelens, Deepak K. Akar, Jorge Borbinha, Hrvoje Brkić, Duc Ky Bui, Kevin Capello, Thi My Linh Dang, Laurent Desorgher, Salvatore Di Maria, Lior Epstein, Dario Faj, Karin Fantinova, Paolo Ferrari, Sebastian GossioJohn Hunt, Zoran Jovanovic, Han Sung Kim, Dragana Krstic, Ngoc Thiem Le, Yi Kang Lee, Manohari Murugan, Minal Y. Nadar, Ngoc Quynh Nguyen, Dragoslav Nikezic, Hemant K. Patni, Denison Souza Santos, Marilyn Tremblay, Sebastian Trivino, Katarzyna Tymińska

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

This paper summarizes the results of an intercomparison on the use of the ICRP Reference Computational Phantoms with radiation transport codes, which was organized by EURADOS working group 6. Three exercises are described: exposure to an anterior-posterior (AP) photon point source, exposure to an AP neutron point source, and exposure to two typical medical X-ray examinations. The three exercises received 17, 8 and 8 solutions, respectively. Participants originated from fifteen different countries, and used a wide range of Monte Carlo codes. Due to difficulties in defining the precise source location unambiguously in the exercise description, agreement to within ∼10% of the reference solution was considered satisfactory for a given participant's results. Although some participants provided initial solutions in good agreement with the reference solutions, differences of several tens of percent, or even several orders of magnitude, were exhibited for many of the others. Following feedback and suggestions from the organizers, revised solutions were submitted by some of the participants for the photon exercises; in general, agreement was improved. The overall observations from these three intercomparison exercises are summarized and discussed.

Original language	English
Article number	106695
Journal	Radiation Measurements
Volume	150
DOIs	https://doi.org/10.1016/j.radmeas.2021.106695
State	Published - Jan 2022
Externally published	Yes

Keywords

ICRP reference phantom
Monte Carlo
Organ absorbed dose

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Huet, C., Eakins, J., Zankl, M., Gómez-Ros, J. M., Jansen, J., Moraleda, M., Struelens, L., Akar, D. K., Borbinha, J., Brkić, H., Bui, D. K., Capello, K., Linh Dang, T. M., Desorgher, L., Di Maria, S., Epstein, L., Faj, D., Fantinova, K., Ferrari, P., ... Tymińska, K. (2022). Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise. Radiation Measurements, 150, Article 106695. https://doi.org/10.1016/j.radmeas.2021.106695

@article{d335b03a0002453abe29dd3efa3956b1,

title = "Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise",

abstract = "This paper summarizes the results of an intercomparison on the use of the ICRP Reference Computational Phantoms with radiation transport codes, which was organized by EURADOS working group 6. Three exercises are described: exposure to an anterior-posterior (AP) photon point source, exposure to an AP neutron point source, and exposure to two typical medical X-ray examinations. The three exercises received 17, 8 and 8 solutions, respectively. Participants originated from fifteen different countries, and used a wide range of Monte Carlo codes. Due to difficulties in defining the precise source location unambiguously in the exercise description, agreement to within ∼10% of the reference solution was considered satisfactory for a given participant's results. Although some participants provided initial solutions in good agreement with the reference solutions, differences of several tens of percent, or even several orders of magnitude, were exhibited for many of the others. Following feedback and suggestions from the organizers, revised solutions were submitted by some of the participants for the photon exercises; in general, agreement was improved. The overall observations from these three intercomparison exercises are summarized and discussed.",

keywords = "ICRP reference phantom, Monte Carlo, Organ absorbed dose",

author = "Christelle Huet and Jonathan Eakins and Maria Zankl and G{\'o}mez-Ros, {Jos{\'e} Mar{\'i}a} and Jan Jansen and Montserrat Moraleda and Lara Struelens and Akar, {Deepak K.} and Jorge Borbinha and Hrvoje Brki{\'c} and Bui, {Duc Ky} and Kevin Capello and {Linh Dang}, {Thi My} and Laurent Desorgher and {Di Maria}, Salvatore and Lior Epstein and Dario Faj and Karin Fantinova and Paolo Ferrari and Sebastian Gossio and John Hunt and Zoran Jovanovic and Kim, {Han Sung} and Dragana Krstic and Le, {Ngoc Thiem} and Lee, {Yi Kang} and Manohari Murugan and Nadar, {Minal Y.} and Nguyen, {Ngoc Quynh} and Dragoslav Nikezic and Patni, {Hemant K.} and Santos, {Denison Souza} and Marilyn Tremblay and Sebastian Trivino and Katarzyna Tymi{\'n}ska",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2022",

month = jan,

doi = "10.1016/j.radmeas.2021.106695",

language = "אנגלית",

volume = "150",

journal = "Radiation Measurements",

issn = "1350-4487",

publisher = "Elsevier Ltd.",

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Huet, C, Eakins, J, Zankl, M, Gómez-Ros, JM, Jansen, J, Moraleda, M, Struelens, L, Akar, DK, Borbinha, J, Brkić, H, Bui, DK, Capello, K, Linh Dang, TM, Desorgher, L, Di Maria, S, Epstein, L, Faj, D, Fantinova, K, Ferrari, P, Gossio, S, Hunt, J, Jovanovic, Z, Kim, HS, Krstic, D, Le, NT, Lee, YK, Murugan, M, Nadar, MY, Nguyen, NQ, Nikezic, D, Patni, HK, Santos, DS, Tremblay, M, Trivino, S & Tymińska, K 2022, 'Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise', Radiation Measurements, vol. 150, 106695. https://doi.org/10.1016/j.radmeas.2021.106695

TY - JOUR

T1 - Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations

T2 - Results of an international intercomparison exercise

AU - Huet, Christelle

AU - Eakins, Jonathan

AU - Zankl, Maria

AU - Gómez-Ros, José María

AU - Jansen, Jan

AU - Moraleda, Montserrat

AU - Struelens, Lara

AU - Akar, Deepak K.

AU - Borbinha, Jorge

AU - Brkić, Hrvoje

AU - Bui, Duc Ky

AU - Capello, Kevin

AU - Linh Dang, Thi My

AU - Desorgher, Laurent

AU - Di Maria, Salvatore

AU - Epstein, Lior

AU - Faj, Dario

AU - Fantinova, Karin

AU - Ferrari, Paolo

AU - Gossio, Sebastian

AU - Hunt, John

AU - Jovanovic, Zoran

AU - Kim, Han Sung

AU - Krstic, Dragana

AU - Le, Ngoc Thiem

AU - Lee, Yi Kang

AU - Murugan, Manohari

AU - Nadar, Minal Y.

AU - Nguyen, Ngoc Quynh

AU - Nikezic, Dragoslav

AU - Patni, Hemant K.

AU - Santos, Denison Souza

AU - Tremblay, Marilyn

AU - Trivino, Sebastian

AU - Tymińska, Katarzyna

PY - 2022/1

Y1 - 2022/1

N2 - This paper summarizes the results of an intercomparison on the use of the ICRP Reference Computational Phantoms with radiation transport codes, which was organized by EURADOS working group 6. Three exercises are described: exposure to an anterior-posterior (AP) photon point source, exposure to an AP neutron point source, and exposure to two typical medical X-ray examinations. The three exercises received 17, 8 and 8 solutions, respectively. Participants originated from fifteen different countries, and used a wide range of Monte Carlo codes. Due to difficulties in defining the precise source location unambiguously in the exercise description, agreement to within ∼10% of the reference solution was considered satisfactory for a given participant's results. Although some participants provided initial solutions in good agreement with the reference solutions, differences of several tens of percent, or even several orders of magnitude, were exhibited for many of the others. Following feedback and suggestions from the organizers, revised solutions were submitted by some of the participants for the photon exercises; in general, agreement was improved. The overall observations from these three intercomparison exercises are summarized and discussed.

AB - This paper summarizes the results of an intercomparison on the use of the ICRP Reference Computational Phantoms with radiation transport codes, which was organized by EURADOS working group 6. Three exercises are described: exposure to an anterior-posterior (AP) photon point source, exposure to an AP neutron point source, and exposure to two typical medical X-ray examinations. The three exercises received 17, 8 and 8 solutions, respectively. Participants originated from fifteen different countries, and used a wide range of Monte Carlo codes. Due to difficulties in defining the precise source location unambiguously in the exercise description, agreement to within ∼10% of the reference solution was considered satisfactory for a given participant's results. Although some participants provided initial solutions in good agreement with the reference solutions, differences of several tens of percent, or even several orders of magnitude, were exhibited for many of the others. Following feedback and suggestions from the organizers, revised solutions were submitted by some of the participants for the photon exercises; in general, agreement was improved. The overall observations from these three intercomparison exercises are summarized and discussed.

KW - ICRP reference phantom

KW - Monte Carlo

KW - Organ absorbed dose

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U2 - 10.1016/j.radmeas.2021.106695

DO - 10.1016/j.radmeas.2021.106695

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AN - SCOPUS:85120957302

SN - 1350-4487

VL - 150

JO - Radiation Measurements

JF - Radiation Measurements

M1 - 106695

ER -

Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise

Abstract

Keywords

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