Modeling and dosimetric characterization of a 3D printed pregnant woman phantom for fetal dosimetry in radiotherapy

A. Chaikh; A. Chaabane; C. Jardin; S. Bassot; T. Beaumont; M. Chea; M. Khalal; C. Jenny; S. Thomas; C. Huet; A. Isambert; M. Edouard

doi:10.1051/radiopro/2024039

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Volume 60 / Numéro 1 (January-March 2025)

Radioprotection, 60 1 (2025) 50-56

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Open Access

Numéro		Radioprotection Volume 60, Numéro 1, January-March 2025


Page(s)		50 - 56
DOI		https://doi.org/10.1051/radiopro/2024039
Publié en ligne		14 mars 2025

Radioprotection 2025, 60(1), 50–56

Article

Modeling and dosimetric characterization of a 3D printed pregnant woman phantom for fetal dosimetry in radiotherapy

A. Chaikh¹^*, A. Chaabane¹, C. Jardin², S. Bassot³, T. Beaumont⁴, M. Chea⁵, M. Khalal⁵, C. Jenny⁵, S. Thomas⁶, C. Huet⁷, A. Isambert¹ and M. Edouard¹

¹ IRSN, PSE-SANTE/SER/UEM, 92260 Fontenay-aux-Roses, France
² IRSN, PSE-ENV/SPDR/LT2S, 92260 Fontenay-aux-Roses, France
³ IRSN, PSE-ENV/SPDR, 92260 Fontenay-aux-Roses, France
⁴ IRSN, PSE-SANTE/SDOS/LEDI, 92260 Fontenay-aux-Roses, France
⁵ Medical Physics Department, Pitié-Salpêtrière Hospital, AP-HP Sorbonne University, France
⁶ IRSN, PSE-SANTE/SER/BERIN, 92260 Fontenay-aux-Roses, France
⁷ IRSN, PSE-SANTE/SDOS/LDRI, 92260 Fontenay-aux-Roses, France

^* Corresponding author: abdulhamid.chaikh@irsn.fr

Received: 10 June 2024
Accepted: 19 August 2024

Abstract

A phantom-based estimation of the fetal dose for pregnant women undergoing radiotherapy and its optimization are recommended by the French society for radiation oncology. The objective of this study was to model and print 3D bellies representing various stages of pregnancy, that could be added to a female ATOM® phantom, enabling fetal dose assessment through measurements for optimization studies. The bellies were designed based on fundal height values from gynecological references and printed using a Stratasys 3D Printer and VeroWhite resin. Its chemical composition was determined using a CHONS analyzer: 65.51% carbon (C), 7.95% hydrogen(H), 23.3% oxygen (O), and 2.89% nitrogen (N). Its physical density was assessed using the helium pycnometry method: 1.190 +/−0.001. The linear attenuation coefficients for VeroWhite resin were evaluated using two methods: by calculations based on the linear attenuation coefficients of each chemical element and by experimental attenuation measurements using a 6 MV beam. Consistent results were obtained with both methods; the VeroWhite resin is approximately 15% higher attenuation than water according to the calculation method and approximately 12% higher attenuation than RW3 water equivalent plates with the experimental method. These results were considered as acceptable for comparative parametric studies of fetal dose.

Key words: radiotherapy / pregnant woman / VeroWhite / 3D Printer

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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