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Comparison of Proton and Photon Radiotheraphy for Left-sided Breast Cancer via Dosimetric Calculations

Yıl 2023, Cilt: 44 Sayı: 3, 590 - 594, 29.09.2023
https://doi.org/10.17776/csj.1061321

Öz

Breast cancer is the most common type of cancer in women. Today, the radiotherapy method is widely preferred to treat cancer patients where proton therapy is a radiotherapy method used to destroy cancerous cells using proton beams with unique characteristics. Photon therapy, on the other hand, is a classical radiotherapy method that treats cancerous cells by targeting ionizing radiation. In our study, a tumor was placed in the left breast in a water phantom with the help of the Geant4 simulation program and geometry with critical organs was modeled. With this simulation, the doses received by the organs were interpreted and comparisons were made using the chi-square method as the two different source beams, proton and photon deployed. When the percentile values in the dose table are normalized for 1 Gy, the test statistic obtained as 0.467, and the H0 hypothesis is rejected at the α=0.975 Statistically, we measured the significant differences between proton and photon dose values for tumors and other organs by Geant4 simulations.

Kaynakça

  • [1] Yeşil S., The Dosimetric Comparison of the Tomotherapy Helical and Tomotherapy Direct Treatment Techniques in the Radiotherapy of Bilateral Breast Cancer, M.Sc., Istanbul Aydin University, Undergraduate Education Institute, (2019).
  • [2] Kumaş A., Radiation Physics and Medical Applications, 2nd ed. Ankara, (2006) 128-135.
  • [3] Martin J. E., Physics for Radiation Protection, 2nd ed.Berlin, (2011) 251-330.
  • [4] Karadeniz Yildirim A., Determination of Internal Dosimetry in Yttrium-90 Microsphere Treatment by Monte Carlo Method, Ph.D., Istanbul University, Institute of Science and Technology, (2019).
  • [5] Krane K.S., Nuclear Physics 1, 1st ed, United States of America, (2001) 192-201.
  • [6] Armutlu B., Proton Therapy with Gate Simulation in the Treatment of Non-Small Cell Lung Cancer, M.Sc., Istanbul Aydin University, Undergraduate Education Institute, (2020).
  • [7] Panagiotis P., Dosimetry Applications in GATE Monte Carlo Toolkit, Physica Medica, 41 (2017) 136-140.
  • [8] Shdeed T. A., Nahili M., Issa N. A., Bitar A., Study of absorbed dose in important organs during helical CT chest scan using MCNP code and MIRD phantom, The Egyptian Journal Of Radiology And Nuclear Medicine, 47(4) (2016) 1649-1663.
  • [9] Maroufkhani F., Abtahi S.M.M., Kakavand T., Assessment of secondary particles in breast proton therapy by Monte Carlo simulation code using MCNPX, International Journal of Radiation Research, 19(1) (2020) 23-29.
  • [10] Lilie L. L., Sabina V., Andreea D., Daniele Ravanelli K. S., Sonny B., Zelig T., Stefan B. & Gary F., Proton beam versus photon beam dose to the heart and left anterior descending artery for left-sided breast cancer, Acta Oncologica, 54(7) (2015) 1032-1039.
  • [11] Raptis A., Jakab Ö., Oscar A., Anno M.F., Iuliana T.D., Alexandru D., Cancer risk after breast proton therapy considering physiological and radiobiological uncertainties, Physica Medica, 76 (2020) 1-6.
  • [12] Mehrdad B., Dragana K., Dragoslav N., Kwan Y., A comparative study on dispersed doses during photon and proton radiation therapy in pediatric applications, Plos One, 16(3) (2021) 1-20.
Yıl 2023, Cilt: 44 Sayı: 3, 590 - 594, 29.09.2023
https://doi.org/10.17776/csj.1061321

Öz

Kaynakça

  • [1] Yeşil S., The Dosimetric Comparison of the Tomotherapy Helical and Tomotherapy Direct Treatment Techniques in the Radiotherapy of Bilateral Breast Cancer, M.Sc., Istanbul Aydin University, Undergraduate Education Institute, (2019).
  • [2] Kumaş A., Radiation Physics and Medical Applications, 2nd ed. Ankara, (2006) 128-135.
  • [3] Martin J. E., Physics for Radiation Protection, 2nd ed.Berlin, (2011) 251-330.
  • [4] Karadeniz Yildirim A., Determination of Internal Dosimetry in Yttrium-90 Microsphere Treatment by Monte Carlo Method, Ph.D., Istanbul University, Institute of Science and Technology, (2019).
  • [5] Krane K.S., Nuclear Physics 1, 1st ed, United States of America, (2001) 192-201.
  • [6] Armutlu B., Proton Therapy with Gate Simulation in the Treatment of Non-Small Cell Lung Cancer, M.Sc., Istanbul Aydin University, Undergraduate Education Institute, (2020).
  • [7] Panagiotis P., Dosimetry Applications in GATE Monte Carlo Toolkit, Physica Medica, 41 (2017) 136-140.
  • [8] Shdeed T. A., Nahili M., Issa N. A., Bitar A., Study of absorbed dose in important organs during helical CT chest scan using MCNP code and MIRD phantom, The Egyptian Journal Of Radiology And Nuclear Medicine, 47(4) (2016) 1649-1663.
  • [9] Maroufkhani F., Abtahi S.M.M., Kakavand T., Assessment of secondary particles in breast proton therapy by Monte Carlo simulation code using MCNPX, International Journal of Radiation Research, 19(1) (2020) 23-29.
  • [10] Lilie L. L., Sabina V., Andreea D., Daniele Ravanelli K. S., Sonny B., Zelig T., Stefan B. & Gary F., Proton beam versus photon beam dose to the heart and left anterior descending artery for left-sided breast cancer, Acta Oncologica, 54(7) (2015) 1032-1039.
  • [11] Raptis A., Jakab Ö., Oscar A., Anno M.F., Iuliana T.D., Alexandru D., Cancer risk after breast proton therapy considering physiological and radiobiological uncertainties, Physica Medica, 76 (2020) 1-6.
  • [12] Mehrdad B., Dragana K., Dragoslav N., Kwan Y., A comparative study on dispersed doses during photon and proton radiation therapy in pediatric applications, Plos One, 16(3) (2021) 1-20.
Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Klasik Fizik (Diğer)
Bölüm Natural Sciences
Yazarlar

İnci Yeşildere 0000-0002-7461-6719

Sinan Kuday 0000-0002-0116-5494

Yayımlanma Tarihi 29 Eylül 2023
Gönderilme Tarihi 21 Ocak 2022
Kabul Tarihi 31 Temmuz 2023
Yayımlandığı Sayı Yıl 2023Cilt: 44 Sayı: 3

Kaynak Göster

APA Yeşildere, İ., & Kuday, S. (2023). Comparison of Proton and Photon Radiotheraphy for Left-sided Breast Cancer via Dosimetric Calculations. Cumhuriyet Science Journal, 44(3), 590-594. https://doi.org/10.17776/csj.1061321