Monitoring internal contamination from OEW of an  18F-FDG production plant: WBC or head counting setup?

Bruno Melo Mendes; Bruno Machado Trindade; Telma Cristina Ferreira Fonseca; Tarcisio Passos Ribeiro de Campos

doi:10.15392/bjrs.v7i3A.880

Monitoring internal contamination from OEW of an 18F-FDG production plant: WBC or head counting setup?

Authors

Bruno Melo Mendes Centro de Desenvolvimento da Tecnologia Nuclear - CDTN/CNEN
Bruno Machado Trindade University of Ottawa. Ottawa, Ontario, Canada
Telma Cristina Ferreira Fonseca Universidade Federal de Minas Gerais – UFMG
Tarcisio Passos Ribeiro de Campos Universidade Federal de Minas Gerais – UFMG

DOI:

https://doi.org/10.15392/bjrs.v7i3A.880

Keywords:

Internal Dosimetry, MCNPx, VMC in-vivo, 18F-FDG incorporation

Abstract

The production ¹⁸F-FDG for positron emission tomography (PET) has consistently increased over the past two decades. The risk of internal contamination at ¹⁸F-FDG production facilities exists. A setup for evaluation of the ¹⁸F-FDG activity incorporated into the OEW brain, called Head Counting System (HCS), was presented in previous works. In this study, the whole body counter setup (WBC) was evaluated for monitoring ¹⁸F incorporations. The Monte Carlo Virtual Software (VMC in-vivo) and the MCNPx code were used to assess the system calibration coefficient (CC). Three ¹⁸F distributions were simulated: i) uniformly distributed in soft tissue (UDST); ii) Na¹⁸F biodistribution (NAFB); and iii) ¹⁸F-FDG biodistribution (FDGB). The calibration coefficient of WBC was compared to the current head counting system CC under the same biodistribution conditions. The ICRP male reference voxelized phantoms (RCP_AM) was used in the simulations. The results showed that the WBC setup was more efficient than the head counter for all the studied ¹⁸F distributions: UDST = 1060 %, FDGB = 488 % and NAFB = 340 %. Despite this, especially for ¹⁸F-FDG, the possibility of bladder voiding before measurement can lead to considerable uncertainties when the WBC setup is used. On the other hand, bladder activity does not show great influence the calibration coefficient of the head counting system. Future work will evaluate the WBC sources of uncertainties in the measurement of ¹⁸F incorporated activity.

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Author Biographies

Bruno Melo Mendes, Centro de Desenvolvimento da Tecnologia Nuclear - CDTN/CNEN

Pesquisador – Mat 00434-1
Seção de Dosimetria das Radiações – SECDOS
Telma Cristina Ferreira Fonseca, Universidade Federal de Minas Gerais – UFMG

Professora Adjunta
Departamento de Engenharia Nuclear - DEN
Tarcisio Passos Ribeiro de Campos, Universidade Federal de Minas Gerais – UFMG

Professor Titular
Departamento de Engenharia Nuclear - DEN

References

CALANDRINO, R.; DEL VECCHIO, A.; TODDE, S.; FAZIO, F. Measurement and control of the air contamination generated in a medical cyclotron facility for PET radiopharmaceuticals. Health Phys, v. 92(5 SUPPL. 2), p. S70-S77, 2007.

SHARMA, P.; MUKHERJEE, A. Newer positron emission tomography radiopharmaceuticals for radiotherapy planning: an overview.,” Ann Transl Med, v. 4(3), p. 1-7, 2016. http://dx.doi.org/10.3978/j.issn.2305-5839.2016.01.26

CALANDRINO, R.; DEL VECCHIO, A.; SAVI, A.; TODDE, S.; BELLOLI, S. Intake risk and dose evaluation methods for workers in radiochemistry labs of a medical cyclotron facility. Health Phys, v. 97(4), p. 315-321, 2009.

CALANDRINO, R.; DEL VECCHIO, A.; PARISI, R.; TODDE, S.; DE FELICE, P.; SAVI, A.; PEPE, A.; MRSKOVA, A. Measurements and evaluation of the risks due to external radiation exposures and to intake of activated elements for operational staff engaged in the maintenance of medical cyclotrons. Radiat Prot Dosimetry, v. 139(4), p. 477–482, 2010.

OLIVEIRA, C.M.; LIMA, F.F.; OLIVEIRA, M.L.; SILVA, T.V.; DANTAS, A.L.; DANTAS, B.M.; ALONSO, T.; SILVA, T.A. Evaluation of a technique for in vivo internal monitoring of18f within a Brazilian Laboratory Network. Radiat Prot Dosimetry, v. 153(1), p. 100-105, 2013.

OLIVEIRA, C.M.; SILVA, T.V.; ALONSO, T.C.; DANTAS, B.M.; DANTAS, L.A.; SILVA, T.A. Validação da Metodologia para Monitoração Interna de Flúor-18 por meio da Unidade do Contador de Corpo Inteiro do CDTN, In: XV CONGRESSO BRASILEIRO DE FÍSICA MÉDICA – CBFM, 2010, Aracajú, Brasil, 2010, p. 1-5.

PELOWITZ, D.B. MCNPx User’s Manual - Version 2.7.0. Los Alamos National Laboratory report LA-CP-11-00438, April, 2011.

HUNT, J.; DANTAS, B.; AZEREDO, A. Visual Monte Carlo and the Simulation of Whole Body Counter and Gamma Camera Counting Systems, In: 12th CONGRESS OF THE INTERNATIONAL RADIATION PROTECTION ASSOCIATION – IRPA 12, 2008, Buenos Aires, Argentina, 2008, p. 1–4.

HUNT, J.G.; DANTAS, B.M.; LOURENÇO, M.C.; AZEREDO, A.M.G. Voxel phantoms and Monte Carlo methods applied to in vivo measurements for simultaneous 241-Am contamination in four body regions. Radiat Prot Dosimetry, v. 105(1–4), p. 549-552, 2003.

GÓMEZ-ROS, J.M.; DE CARLAN, L.; FRANCK, D.; GUALDRINID, LIS, M.; LÓPEZ, M.A.; MORALEDA, M.; ZANKL, M.; BADAL, A.; CAPELLO, K.; COWAN, P.; FERRARI, P.; HEIDE, B.; HENNIGER, J.; HOOLEY, V.; HUNT, J.; KINASE, S.; KRAMER, G.H.; LÖHNERT, D.; LUCAS, S.; NUTTENS, V.; PACKER, L.W.; REICHELT, U.; VRBA, T.; SEMPAU, J.; ZHANG, B. Monte Carlo modelling of Germanium detectors for the measurement of low energy photons in internal dosimetry: Results of an international comparison. Radiat Meas, v. 43(2–6), p. 510-515, 2008.

ICRP - International Commission on Radiological Protection. Adult Reference Computational Phantoms. ICRP Publication 110. Ann ICRP, v. 39(2), p. 21-45, 2009.

ICRP - International Commission on Radiological Protection. Radiation Dose to Patients from Radiopharmaceuticals: a Compendium of Current Information Related to Frequently Used Substances. Ann ICRP, v. 44(2 Suppl), p. 7-321, 2015.

ICRP - International Commission on Radiological Protection. The ICRP Computational Framework for Internal Dose Assessment for Reference Adults: Specific Absorbed Fractions. ICRP Publication 133. Ann ICRP, v. 45(2), p. 74, 2016.

ICRP - International Commission on Radiological Protection. Nuclear decay data for dosimetric calculations. ICRP Publication 107. Ann ICRP, v. 38(3), p. 7-96, 2008.

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Published

2019-07-14

Issue

Vol. 7 No. 3A (Suppl.) (2019)

Section

Week of Nuclear Engineering and Radiation Sciences

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How to Cite

Monitoring internal contamination from OEW of an 18F-FDG production plant: WBC or head counting setup?. Brazilian Journal of Radiation Sciences, Rio de Janeiro, Brazil, v. 7, n. 3A (Suppl.), 2019. DOI: 10.15392/bjrs.v7i3A.880. Disponível em: https://www.bjrs.org.br/revista/index.php/REVISTA/article/view/880.. Acesso em: 6 may. 2024.