Experimental verification of a methodology for Monte Carlo modeling of multileaf collimators using the code Geant4

Autores/as

  • Alex Cristóvão Holanda de Oliveira Universidade Federal de Pernambuco image/svg+xml
  • José Wilson Vieira Instituto Federal de Pernambuco
  • Miriam Zarza Moreno Universidade Nova de Lisboa image/svg+xml
  • Fernando Roberto Andrade Lima Centro Regional de Ciências Nucleares do Nordeste

DOI:

https://doi.org/10.15392/bjrs.v6i2.324

Palabras clave:

Radiotherapy, Multileaf Collimator, Monte Carlo

Resumen

Among the many algorithms developed for evaluation of dose distributions in radiotherapy, the Monte Carlo methods provide more realistic results. In intensity modulated radiation therapy, significant differences in dose distributions within the fields defined by the multileaf collimator (MLC) could have significant radiobiology effects. Thus, it is important to model thoroughly the MLC to allow more accurate radiotherapy delivery. The objective of this work is to describe and to validate a methodology for modeling of MLCs using code Geant4. The Varian Millennium 120-leaf MLC was modeled using this methodology and it was experimentally verified. The leaves of the MLC were built using three types of solid (G4Box, G4Tubs and G4ExtrudeSolid) and the Boolean operation of subtraction (G4SubtractionSolid). Based on this methodology, it is possible to simulate other Varian MLC models using Geant4 or other MC code.

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Biografía del autor/a

  • Alex Cristóvão Holanda de Oliveira, Universidade Federal de Pernambuco

    Departamento de Energia Nuclear

  • José Wilson Vieira, Instituto Federal de Pernambuco

    Laboratório de Dosimetria Numérica

  • Miriam Zarza Moreno, Universidade Nova de Lisboa

    Departamento de Física

Referencias

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IAEA - INTERNATIONAL ATOMIC ENERGY AGENCY. Phase-Space Database for External Beam Radiotherapy. Vienna: IAEA, 2006.

JANG, S. Y.; VASSILIEV, O. N.; LIU, H. H.; MOHAN, R. Development and commissioning of a multileaf collimator model in Monte Carlo dose calculations for intensity-modulated radiation therapy. Medical Physics, 33, 3, 2006.

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OKAMOTO, H.; FUJITA, Y.; SAKAMA, K.; SAITOH, H.; KANAI, T.; ITAMI, J.; KOHNO, T. Commissioning of 6 MV medical linac for dynamic MLC-based IMRT on Monte Carlo code Geant4. Radiological Physics and Technology, 7, 2, 2014.

ROGERS, D. W. O.; WALTERS, B.; KAWRAKOW, I. BEAMnrc Users Manual. Ottawa: National Research Council of Canada, 2011.

TACKE, M. B.; SZYMANOWSKI, H.; OELFKE, U.; SCHULZE, C.; NUSS, S.; WEHRWEIN, E.; LEIDENBERGER, S. Assessment of a new multileaf collimator concept using GEANT4 Monte Carlo simulations. Medical Physics, 33, 4, 2006.

VERHAEGEN, F.; SEUNTJENS, J. Monte Carlo modelling of external radiotherapy photon beams. Physics in Medicine and Biology, 48, 2003.

VERHAEGEN, F. Monte Carlo Modeling of External Photon Beams in Radiotherapy. In: SECO, J.; VERHAEGEN, F. (Eds). Monte Carlo Techniques in Radiation Therapy. USA: CRC Press, 2013.

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Publicado

2018-05-06

Número

Vol. 6 Núm. 2 (2018)

Sección

Articles

Licencia

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Cómo citar

Experimental verification of a methodology for Monte Carlo modeling of multileaf collimators using the code Geant4. Brazilian Journal of Radiation Sciences (BJRS), Rio de Janeiro, Brazil, v. 6, n. 2, 2018. DOI: 10.15392/bjrs.v6i2.324. Disponível em: https://bjrs.org.br/revista/index.php/REVISTA/article/view/324. Acesso em: 16 jul. 2025.