Um Modelo de Programação por Metas Estendido para o Planejamento de Radioterapia

Authors

  • Juliana Campos de Freitas
  • D. Jones
  • E. J. Pinto
  • U. S. da Silva
  • H. O. Florentino
  • R. A. de Oliveira
  • D. R. Cantane

DOI:

https://doi.org/10.5540/tema.2019.020.02.277

Keywords:

Programação por Metas, Otimização, Radioterapia.

Abstract

Neste artigo é proposto um modelo de programação por metas estendido aplicado ao planejamento de radioterapia, em que foi encontrada a melhor combinação de pesos para as metas a serem atingidas. O modelo foi aplicado a um caso real de câncer de próstata e resolvido pelosoftware CPLEX, em que foi utilizado o Método de Pontos Interiores Barreira Logarítmica como método de resolução.

References

Ministério da Saúde, “Estimativa 2018: Incidência de câncer no brasil/instituto nacional de câncer josé alencar gomes da silva,” tech. rep., Rio de Janeiro, RJ, 2017.

L. S. J. V. Salvajoli, Radioterapia em Oncologia. Atheneu, 2013.

A. H. A. H. D. L. R. Acosta, W. Brick, “Radiotherapy optimal design: An academic radiotherapy treatment design system,” Operations Research/Computer Science Interfaces, vol. 47, pp. 401–425, 2009.

G. K. Bahr, J. G. Kereiakes, R. Finney, J. Galvin, and K. Good, “The method of linear programming applied to radiation treatment planning,” Radiology, vol. 91, pp. 686–693, 1968.

D. M. Shepard, M. C. Ferris, G. H. Oliveira, and T. R. Mackie, “Optimizing the delivery of radiation therapy to cancer patients,” SIAM Review, vol. 41, no. 4, pp. 721–744, 1999.

M. Ehrgott and R. Johnston, “Optimisation of beam directions in intensity modulated radiation therapy planning,” OR Spectrum, vol. 25, pp. 251–264, 2003.

A. G. Holder, “Designing radiotherapy plans with elastic constraints and interior point methods,” Health Care Management, vol. 6, pp. 5–16, 2003.

D. L. Craft, T. F. Halabi, H. A. Shih, and T. R. Bortfeld, "Approximating convex pareto surfaces in multiobjective radiotherapy planning,” Medical Physics, vol. 33, no. 9, pp. 3399–3407, 2006.

M. Ehrgott, A. Holder, and J. Reese, “Beam selection in radiotherapy design,” Linear Algebra and its Applications, vol. 428, pp. 1272–1312, 2008.

V. H. Clark, Y. Chen, J. Wilkens, J. R. Alaly, K. Zakaryan, and J. O. Deasy, “Imrt treatment planning for prostate cancer using prioritized prescription optimization and mean-tail-dose functions,” Linear Algebra and its Applications, vol. 428, pp. 1345–1364, 2008.

G. Lim, J. Choin, and R. Mohan, “Iterative solution methods for beam angle and fluence map optimization in intensity modulated radiation therapy planning,” OR Spectrum, vol. 30, pp. 289–309, 2008.

M. C. Goldbarg, E. F. G. Goldbarg, C. R. A. Mendes, F. S. L. N. Araújo, and G. Corso, “Algoritmo evolucionário para otimizaçãp do plano de tratamento em radioterapia conformal 3d,” Pesquisa Operacional, vol. 29, no. 2, pp. 239–267, 2009.

D. Bertsimas, V. Cacchiani, D. Craft, and O. Nohadani, “A hybrid approach to beam angle optimization in intensity-modulated radiation therapy,” Computers & Operations Research, vol. 40, no. 9, pp. 2187–2197, 2013.

J. Dias, H. Rocha, B. Ferreira, and M. do Carmo Lopes, “A genetic algorithm with neural network fitness function evaluation for imrt beam angle optimization,” CEJOR, vol. 22, pp. 431–455, 2014.

T. M. Obal, Desenvolvimento e avaliação de matheurística para o combinado problema do posicionamento dos feixes e distribuição de dose no planejamento de radioterapia. Thesis (Ph.D.), Universidade Federal do Paraná, Curitiba, 2016.

D. P. Santanna, F. Z. Dalmácio, L. L. Rangel, and V. Nossa, “Goal programming como ferramenta de gestão,” FUCAPE Business School, p. 15, 2006.

C. Romero, “Extended lexicographic goal programming: a unifying approach,” Omega, vol. 29, pp. 63–71, 2001.

Dylan Jones, “Goal programming: Tutorial overview of the state of the art..” Notas de aula - Goal Programming Workshop, Botucatu, 2018.

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Published

2019-07-29

How to Cite

Freitas, J. C. de, Jones, D., Pinto, E. J., da Silva, U. S., Florentino, H. O., de Oliveira, R. A., & Cantane, D. R. (2019). Um Modelo de Programação por Metas Estendido para o Planejamento de Radioterapia. Trends in Computational and Applied Mathematics, 20(2), 277. https://doi.org/10.5540/tema.2019.020.02.277

Issue

Vol. 20 No. 2 (2019)

Section

Original Article

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