Interpretação de dados de bioanálise considerando mais de um cenário de incorporação
DOI:
https://doi.org/10.15392/bjrs.v8i1.1070Keywords:
dosimetria interna, cenário de incorporação, ajuste computacional, qui-quadradoAbstract
Uma estimativa de dose efetiva comprometida é baseada em modelos, os quais são compostos por um conjunto de parâmetros e suposições, cujo objetivo é fazer uma boa representação da realidade, descrevendo assim, da melhor maneira possível, o cenário onde tenha ocorrido a incorporação. Os cenários de incorporação adotados em dosimetria interna estão relacionados aos modelos biocinéticos recomendados por comitês científicos internacionais. As principais metodologias de cálculo de dose interna recomendam a adoção de apenas um valor para cada parâmetro dos modelos, compondo um cenário que represente as circunstâncias na qual o material radioativo foi incorporado. O teste de qui-quadrado é o critério para aceitação de um determinado cenário. Quando o cenário proposto não é considerado adequado, a recomendação é fazer um estudo mais minucioso aumentando a quantidade de exames de bioanálise ou testando outros cenários possíveis para a situação. Neste trabalho, apresenta-se um módulo computacional cuja função é construir um cenário de incorporção de material radioativo que melhor se ajuste aos dados de bioanálise disponíveis e calcule a atividade total incorporada, a partir de cenários selecionados dentre aqueles recomendados.
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References
ICRP. International Commission on Radiological Protection Publication 30 (Part 2): Limits for Intakes of Radionuclides by Workers, in Annals of the ICRP 4 (3–4), 1980.
ICRP. International Commission on Radiological Protection Publication 66: Human Respiratory Tract Model, in Annals of the ICRP 66 (1), 1996.
ICRP. International Commission on Radiological Protection Publication 67: Age-dependent Doses to Members of the Public from Intake of Radionuclides — Part 2 Ingestion Dose Coeffi-cients, in Annals of the ICRP 23(3–4), 1993.
ICRP. International Commission on Radiological Protection Publication 72: Age-Dependent Doses to Members of the Public from Intake of Radionuclides (Part 5). Compilation of Inges-tion and Inhalation Coefficients, in Annals of the ICRP 26(1), 1996.
ICRP. International Commission on Radiological Protection Publication 78: Individual Monitor-ing for Internal Exposure of Workers, in Annals of the ICRP 27(3–4), 1997.
National Council on Radiation Protection and Measurements. Development of a biokinetic model for radionuclide - contaminated wounds and procedures for their assessment, dosimetry and treatment. Recommendations of the National Council on Radiation Protection and Meas-urements, NCRP 156, 2006.
ICRP. International Commission on Radiological Protection. Compendium of Dose Coefficients Based on ICRP Publication 60. Oxford: Pergamon Press; ICRP Publication 119; Ann ICRP 41 (suppl); 2012.
Eckerman KF, Leggett RW, Cristy M, Nelson CB, Ryman JC, Sjoreen AL, Ward RC. DCAL system dose and risk calculation system, version 8.4. Oak Ridge, TN: Oak Ridge National La-boratory; ORNL/TM‐2001/190; 2006.
A. Birchall, M. Puncher, J. W. Marsh, J. Davis, M. R. Bailey. IMBA Professional Plus: a flexible approach to internal dosimetry. Radiation Protection Dosimetry, Volume 125, Issue 1-4, Pages 194–197, 2007.
Bertelli L, Melo D, Lipsztein J, Cruz-Suarez R. AIDE: internal dosimetry software. Radiat Protect Dosim 130:358–367; 2008.
Ishigure N, Matsumoto M, Nakano T, Enomoto H. Development of software for internal dose calculation from bioassay measurements. Radiat Prot Dosimetry. 2004; 109 (3): 235-242.
Castellani, C. M, Marsh, J. W., Hurtgen, C., Blanchardon E., Giussani, A., Lopez, M. A. IDEAS Guidelines (version 2) for the Estimation of Committed Dose from Incorporation Monitoring Data. EURADOS, 2013.
ICRP. International Commission on Radiological Protection Publication 130: Occupational Intake of Radionuclides: Part 1, in Annals of the ICRP 44 (2), 2015.
ICRP. International Commission on Radiological Protection Publication 134: Occupational Intake of Radionuclides: Part 2, in Annals of the ICRP 45 (3/4), 2016.
ICRP. International Commission on Radiological Protection Publication 137: Occupational Intake of Radionuclides: Part 3, in Annals of the ICRP 46 (3/4), 2017.
Petroutsos E. Mastering Visual Basic 2010, Wiley Publishing, Indiana, 2010.
Halvorson M. Microsoft: Visual Basic 2010 – Passo a passo. Bookman, 2011.
Maia Avtandilashvili*, Sara Dumit and Sergei Y. Tolmachev.USTUR WHOLE-BODY CASE 0212: 17 YEAR FOLLOW-UP OF PLUTONIUM CONTAMINATED WOUND. Ra-diation Protection Dosimetry (2017), pp. 1–10.
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