Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da PUC_RS |
| Texto Completo: | http://tede2.pucrs.br/tede2/handle/tede/10001 |
Resumo: | Dosimetry with polymeric gels combined with Monte Carlo simulations results in an extremely reliable analysis for quality control in radiotherapy. This study aims to investigate the MAGIC - f dosimetric gel use for dose measurements due to high energy photon irradiation from a linear radiotherapy accelerator through experimental studies and Monte Carlo simulations. We produced two batches of MAGIC-f gel and placed into test tubes. The irradiations were carried out in a Varian IX linear accelerator, using photons with energy of 6 MeV, field size 20x20 cm², and source-object distance of 94 cm. Two batches of MAGIC - f dosimetric gel were evaluated, with planned doses of 0, 2, 4, 6, 8, 10, 20, and 40 Gy for the first batch and 0, 2, 4, 6, 10, 12, 14, and 16 Gy for the second batch. The Chimera system, from Geant4, was used for the Monte Carlo simulations, modeling the Varian IX linear accelerator with the opening of collimators for different field sizes. We performed all simulations in clusters at the PUCRS High-Performance Laboratory. To validate the linear accelerator simulation, we modeled deep dose percentage (PDP) acquisitions using a cubic phantom of 48 x 48 x 40 cm³ filled with water. Magnetic resonance images (MRI) were acquired with the Fast Spin Echo (MSE) and Spin Echo (SE) sequences, using 11 echoes. For the MSE sequence, the dose sensitivity values obtained were 0.27225 and 0.22717 Gy-1s-1 with TR = 3 s for the first and second batch. Using TR = 10 s, dose sensitivity values were 0.28127 and 0.22978 Gy-1s-1 for the first and second batch. For the SE sequence, dose sensitivity values were 0.41967 and 0.41158 Gy-1s-1, with TR = 3 s for the first and second batch. The experimental PDP values were used to validate the simulation, showing maximum differences of 2.9% (10 x 10 cm²), 2.3% (20 x 20 cm²), 1.9% (30 x 30 cm²) and 1.5% (40 x 40 cm²), in relation to the experimental values. Concluding, the MRI SE sequence has a greater dose sensitivity compared to MSE. The sensitivity and linearity of the MAGIC - f gel agree with previously published studies. There is a linear trend of the dose deposited in the tubes with the increase in the number of simulated particles, requiring the splitter technique to obtain higher doses. |
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Silva, Ana Maria Marques dahttp://lattes.cnpq.br/5375482124482980Papaléo, Ricardo Meurerhttp://lattes.cnpq.br/1933730859000512http://lattes.cnpq.br/7248406497106855Cavedini, Nícollas Gonçalves2021-12-07T19:33:01Z2021-08-31http://tede2.pucrs.br/tede2/handle/tede/10001Dosimetry with polymeric gels combined with Monte Carlo simulations results in an extremely reliable analysis for quality control in radiotherapy. This study aims to investigate the MAGIC - f dosimetric gel use for dose measurements due to high energy photon irradiation from a linear radiotherapy accelerator through experimental studies and Monte Carlo simulations. We produced two batches of MAGIC-f gel and placed into test tubes. The irradiations were carried out in a Varian IX linear accelerator, using photons with energy of 6 MeV, field size 20x20 cm², and source-object distance of 94 cm. Two batches of MAGIC - f dosimetric gel were evaluated, with planned doses of 0, 2, 4, 6, 8, 10, 20, and 40 Gy for the first batch and 0, 2, 4, 6, 10, 12, 14, and 16 Gy for the second batch. The Chimera system, from Geant4, was used for the Monte Carlo simulations, modeling the Varian IX linear accelerator with the opening of collimators for different field sizes. We performed all simulations in clusters at the PUCRS High-Performance Laboratory. To validate the linear accelerator simulation, we modeled deep dose percentage (PDP) acquisitions using a cubic phantom of 48 x 48 x 40 cm³ filled with water. Magnetic resonance images (MRI) were acquired with the Fast Spin Echo (MSE) and Spin Echo (SE) sequences, using 11 echoes. For the MSE sequence, the dose sensitivity values obtained were 0.27225 and 0.22717 Gy-1s-1 with TR = 3 s for the first and second batch. Using TR = 10 s, dose sensitivity values were 0.28127 and 0.22978 Gy-1s-1 for the first and second batch. For the SE sequence, dose sensitivity values were 0.41967 and 0.41158 Gy-1s-1, with TR = 3 s for the first and second batch. The experimental PDP values were used to validate the simulation, showing maximum differences of 2.9% (10 x 10 cm²), 2.3% (20 x 20 cm²), 1.9% (30 x 30 cm²) and 1.5% (40 x 40 cm²), in relation to the experimental values. Concluding, the MRI SE sequence has a greater dose sensitivity compared to MSE. The sensitivity and linearity of the MAGIC - f gel agree with previously published studies. There is a linear trend of the dose deposited in the tubes with the increase in the number of simulated particles, requiring the splitter technique to obtain higher doses.A dosimetria com géis poliméricos combinada com simulações de Monte Carlo, resulta em uma análise mais realística para controle de qualidade em radioterapia. O objetivo deste estudo é investigar o uso do gel dosimétrico MAGIC-f para medidas de dose devido à irradiação de fótons de alta energia de um acelerador linear de radioterapia através de estudos experimentais e de simulações de Monte Carlo. Dois lotes de gel MAGIC-f foram produzidos e colocados em tubos de ensaios. As irradiações foram realizadas no acelerador linear Varian IX, utilizando fótons com energia de 6 MV, tamanho de campo 20x20 cm² e distância fonte-objeto de 94 cm. Foram avaliados dois lotes do gel dosimétrico MAGIC-f, com doses planejadas de 0, 2, 4, 6, 8, 10, 20 e 40 Gy para o primeiro lote e 0, 2, 4, 6, 10, 12, 14 e 16 Gy para o segundo lote. O sistema Quimera, do Geant4, foi utilizado para as simulações de Monte Carlo, modelando o acelerador linear Varian IX com a abertura dos colimadores para diferentes tamanhos de campo. Todas as simulações foram realizadas em clusters do Laboratório de Alto Desempenho da PUCRS. Para a validação da simulação do acelerador linear, foram modeladas aquisições de porcentagem de dose profunda (PDP), utilizando um phantom cúbico de 48 x 48 x 40 cm³ preenchido com água. As imagens por ressonância magnética foram adquiridas com as sequências Multi Spin Eco (MSE) e Spin Eco (SE), utilizando 11 ecos. Para a sequência MSE, os valores de sensibilidade de dose obtidos foram de 0,27225 e 0,22717 Gy-1s-1 com TR = 3 s para o primeiro e segundo lote. Utilizando TR = 10 s, os valores de sensibilidade de dose foram de 0,28127 e 0,22978 Gy-1s-1 para o primeiro e segundo lote. Para a sequência SE, os valores de sensibilidade de dose foram de 0,41967 e 0,41158 Gy-1s-1, com TR = 3 s para o primeiro e segundo lote. Os valores experimentais de PDP foram utilizados para a validação da simulação, apresentando diferenças máximas de 2,9% (10 x 10 cm²), 2,3% (20 x 20 cm²), 1,9% (30 x 30 cm²) e 1,5% (40 x 40 cm²), em relação aos valores experimentais. Conclui-se que a sequência SE de MRI apresentam uma maior sensibilidade de dose em relação à MSE. A sensibilidade e a linearidade do gel MAGIC-f estão em acordo com estudos previamente publicados. Observa-se uma tendência linear da dose depositada nos tubos com o aumento do número de partículas simulado, sendo necessário o uso da técnica de splitter para a obtenção de maiores doses nos tubos.Submitted by PPG Engenharia Elétrica (engenharia.pg.eletrica@pucrs.br) on 2021-11-30T17:24:29Z No. of bitstreams: 1 NÍCOLLAS GONÇALVES CAVEDINI_DIS.pdf: 8397365 bytes, checksum: d1ad6e274528dce35a678f82b3060f97 (MD5)Approved for entry into archive by Caroline Xavier (caroline.xavier@pucrs.br) on 2021-12-07T19:28:55Z (GMT) No. of bitstreams: 1 NÍCOLLAS GONÇALVES CAVEDINI_DIS.pdf: 8397365 bytes, checksum: d1ad6e274528dce35a678f82b3060f97 (MD5)Made available in DSpace on 2021-12-07T19:33:01Z (GMT). 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| dc.title.por.fl_str_mv |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| title |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| spellingShingle |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f Cavedini, Nícollas Gonçalves Gel Dosimétrico MAGIC-f Acelerador Linear Simulação de Monte Carlo Geant4 Dosimetric Gel MAGIC-f Linear Accelerator Monte Carlo Simulation Geant4 ENGENHARIAS |
| title_short |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| title_full |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| title_fullStr |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| title_full_unstemmed |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| title_sort |
Estudo experimental e computacional de dosimetria utilizando o gel dosimétrico MAGIC-f |
| author |
Cavedini, Nícollas Gonçalves |
| author_facet |
Cavedini, Nícollas Gonçalves |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Silva, Ana Maria Marques da |
| dc.contributor.advisor1Lattes.fl_str_mv |
http://lattes.cnpq.br/5375482124482980 |
| dc.contributor.advisor-co1.fl_str_mv |
Papaléo, Ricardo Meurer |
| dc.contributor.advisor-co1Lattes.fl_str_mv |
http://lattes.cnpq.br/1933730859000512 |
| dc.contributor.authorLattes.fl_str_mv |
http://lattes.cnpq.br/7248406497106855 |
| dc.contributor.author.fl_str_mv |
Cavedini, Nícollas Gonçalves |
| contributor_str_mv |
Silva, Ana Maria Marques da Papaléo, Ricardo Meurer |
| dc.subject.por.fl_str_mv |
Gel Dosimétrico MAGIC-f Acelerador Linear Simulação de Monte Carlo Geant4 |
| topic |
Gel Dosimétrico MAGIC-f Acelerador Linear Simulação de Monte Carlo Geant4 Dosimetric Gel MAGIC-f Linear Accelerator Monte Carlo Simulation Geant4 ENGENHARIAS |
| dc.subject.eng.fl_str_mv |
Dosimetric Gel MAGIC-f Linear Accelerator Monte Carlo Simulation Geant4 |
| dc.subject.cnpq.fl_str_mv |
ENGENHARIAS |
| description |
Dosimetry with polymeric gels combined with Monte Carlo simulations results in an extremely reliable analysis for quality control in radiotherapy. This study aims to investigate the MAGIC - f dosimetric gel use for dose measurements due to high energy photon irradiation from a linear radiotherapy accelerator through experimental studies and Monte Carlo simulations. We produced two batches of MAGIC-f gel and placed into test tubes. The irradiations were carried out in a Varian IX linear accelerator, using photons with energy of 6 MeV, field size 20x20 cm², and source-object distance of 94 cm. Two batches of MAGIC - f dosimetric gel were evaluated, with planned doses of 0, 2, 4, 6, 8, 10, 20, and 40 Gy for the first batch and 0, 2, 4, 6, 10, 12, 14, and 16 Gy for the second batch. The Chimera system, from Geant4, was used for the Monte Carlo simulations, modeling the Varian IX linear accelerator with the opening of collimators for different field sizes. We performed all simulations in clusters at the PUCRS High-Performance Laboratory. To validate the linear accelerator simulation, we modeled deep dose percentage (PDP) acquisitions using a cubic phantom of 48 x 48 x 40 cm³ filled with water. Magnetic resonance images (MRI) were acquired with the Fast Spin Echo (MSE) and Spin Echo (SE) sequences, using 11 echoes. For the MSE sequence, the dose sensitivity values obtained were 0.27225 and 0.22717 Gy-1s-1 with TR = 3 s for the first and second batch. Using TR = 10 s, dose sensitivity values were 0.28127 and 0.22978 Gy-1s-1 for the first and second batch. For the SE sequence, dose sensitivity values were 0.41967 and 0.41158 Gy-1s-1, with TR = 3 s for the first and second batch. The experimental PDP values were used to validate the simulation, showing maximum differences of 2.9% (10 x 10 cm²), 2.3% (20 x 20 cm²), 1.9% (30 x 30 cm²) and 1.5% (40 x 40 cm²), in relation to the experimental values. Concluding, the MRI SE sequence has a greater dose sensitivity compared to MSE. The sensitivity and linearity of the MAGIC - f gel agree with previously published studies. There is a linear trend of the dose deposited in the tubes with the increase in the number of simulated particles, requiring the splitter technique to obtain higher doses. |
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2021 |
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2021-12-07T19:33:01Z |
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