Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):

Share this content! On (X network) By

Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons Publisher Pubmed

Karimi AH¹ ; Mirian SF² ; Mahmoudi F³ ; Geraily G^{1, 4} ; Vegacarrillo HR⁵ ; Mohiuddin M⁶

Show Affiliations

1. Department of Medical Physics and Biomedical Engineering, School of Medicine, Tehran University of Medical Sciences, Tehran, Iran
2. Department of Nuclear Engineering, Faculty of Physics, University of Isfahan, Isfahan, Iran
3. Department of Medical Physics, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran
4. Radiation Oncology Research Center, Cancer Institute, Tehran University of Medical Sciences, Tehran, Iran
5. Academic Unit of Nuclear Studies, University Autonomous of Zacatecas, 10 Cipres St., Zacatecas, 98060, Zac, Mexico
6. Department of Radiation Oncology, Advocate Lutheran General Hospital, 1700 Lutheran, Park Ridge, IL, United States

Source: Computer Methods and Programs in Biomedicine Published:2022

Abstract

Purpose: Photoneutron production is a common concern when using 18-MV photon beams in radiation therapy. In Spatially Fractionated Grid Radiation Therapy (SFGRT), the grid block in the collimation system modifies the neutron production, photon scattering, and electron contamination in and out of the radiation field. Such an effect was studied with grids made of different high-Z materials by Monte Carlo simulations. The results were also used to evaluate the lifetime risk of fatal cancers. Methods: MCNPX® code (2.7.0 extensions) was employed to simulate an 18-MV LINAC (Varian 2100 C/D). Three types of grid made of brass, cerrobend, and lead were used to study the neutron and electron fluence. Output factors for each grid with different field sizes were calculated. A revised female MIRD phantom with an 8-cm spherical tumor inside the liver was used to estimate the dose to the tumor and the critical organs. A 20-Gy SFGRT plan with Anterior Posterior (AP) - Posterior Anterior (PA) grid beams was compared with a Conventional Fractionated Radiation Therapy (CFRT) plan which delivered 40-Gy to the tumor by AP-PA open beams. Neutron equivalent dose, photon equivalent dose, as well as lifetime risks of fatal cancer were calculated in the organs at risk. Results: The grid blocks reduced the fluence of contaminant electrons inside the treatment field by more than 50%. The neutron fluences per electron-history in SFGRT plans with brass, cerrobend and lead were on average 55%, 31% and 31% less than that of the CFRT plan, respectively. However, when converting to fluences per delivered dose (Gy), the cerrobend and lead grid may incur higher neutron dose for 20 × 20 cm2 field size and above. The changes in neutron mean energy, as well as the correlated radiation weighting factors, were insignificant. The total risk due to the photoneutrons in the SFGRT plans was 87% or lower than that in the CFRT plans. In both SFGRT and CFRT plans, the contribution of the primary and scattered photons to the fatal cancer risk was 2 times or more than the photoneutrons. The total risks from photons in SFGRT with brass, cerrobend, and lead blocks were 1.733, 1.374, and 1.260%, respectively, which were less than 30% of the total photon-risk in CFRT (5.827%). Conclusion: In the brass, cerrobend, and lead grids, the attenuation of photoneutrons outweighs its photoneutron production in 18-MV SFGRT. The total cancer risks from photons and photoneutrons in the SFGRT plans were 30% or less of the risks in the CFRT plans (5.911%). Using 18 MV photon beams with brass, cerrobend, and lead grid blocks is still a feasible option for SFGRT. © 2021

Related Docs

View other Related Docs

1. Semi-Experimental Assessment of Neutron Equivalent Dose and Secondary Cancer Risk for Off-Field Organs in Glioma Patients Undergoing 18-Mv Radiotherapy, PLoS ONE (2022)

2. Monte Carlo Evaluation of Out-Of-Field Dose in 18 Mv Pelvic Radiotherapy Using a Simplified Female Mird Phantom, Biomedical Physics and Engineering Express (2022)

3. The Role of the Spatially Fractionated Radiation Therapy in the Management of Advanced Bulky Tumors, Polish Journal of Medical Physics and Engineering (2021)

4. Estimating Radiotherapy-Induced Secondary Cancer Risk Arising From Brain Irradiation at High Energy: A Monte Carlo Study, Frontiers in Biomedical Technologies (2022)

5. The Influence of Brass Compensator Thickness and Field Size on Neutron Contamination Spectrum in 18Mv Elekta Sl 75/25 Medical Linear Accelerator With and Without Flattening Filter: A Monte Carlo Study, Journal of Biomedical Physics and Engineering (2018)

6. Measurement of Photoneutron Dose Produced by Wedge Filters of a High Energy Linac Using Polycarbonate Films, Journal of Radiation Research (2008)

7. Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room, Radiation Protection Dosimetry (2013)

8. The Effect of Field Modifier Blocks on the Fast Photoneutron Dose Equivalent From Two High-Energy Medical Linear Accelerators, Radiation Protection Dosimetry (2008)

Experts (# of related papers)

View all Related Experts

Daryoush Shahbazi-Gahrouei (20)

Mohammad Bagher Tavakoli (14)

Other Related Docs

9. Photoneutron Shielding Design for an 18 Mv Saturne 20 Medical Linear Accelerator, Journal of Isfahan Medical School (2014)

10. Essential Considerations for Accurate Evaluation of Photoneutron Contamination in Radiotherapy, Applied Radiation and Isotopes (2019)

11. A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method, Nukleonika (2007)

12. Evaluation of Risk of Secondary Thyroid Cancer Caused by Neutron Dose Equivalent From Brain Tumor 3D-Conformal Radiation Therapy (3D-Crt), Journal of Isfahan Medical School (2020)

13. Evaluation of the Photon Dose Calculation Accuracy in Radiation Therapy of Malignant Pleural Mesothelioma, Journal of Cancer Research and Therapeutics (2018)

14. Monte Carlo Simulation of Siemens Oncor Linear Accelerator With Beamnrc and Dosxyznrc Code, Journal of Medical Signals and Sensors (2013)

15. Measurement of Photoneutron Dose in the Linear Accelerator at the Radiation Therapy Section of Seyed-Al-Shohada Hospital, Isfahan, Iran, Journal of Isfahan Medical School (2012)

16. A Novel Gpu-Based Fast Monte Carlo Photon Dose Calculating Method for Accurate Radiotherapy Treatment Planning, Journal of Biomedical Physics and Engineering (2020)

17. Determination of the Neutron Contamination During Brain Radiotherapy Using a Moderated-Boron Trifluoride Detector and the Mcnp Monte Carlo Code, Radiation Protection Dosimetry (2022)

18. Out-Of-Field Beam Characteristics of a 6Mv Photon Beam: Results of a Monte Carlo Study, Applied Radiation and Isotopes (2013)

19. First Macro Monte Carlo Based Commercial Dose Calculation Module for Electron Beam Treatment Planning - New Issues for Clinical Consideration, Physics in Medicine and Biology (2006)

20. Dose Perturbation Due to Dental Amalgam in the Head and Neck Radiotherapy: A Phantom Study, Medical Dosimetry (2020)

21. Dosimetric Characteristics of Tomotherapy and Three-Dimensional Conformal Radiotherapy for Head and Neck Cancer, International Journal of Radiation Research (2023)

22. Development and Validation of Mcnpx-Based Monte Carlo Treatment Plan Verification System, Journal of Medical Physics (2015)

23. Dosimetric Verification of Lung Phantom Calculated by Collapsed Cone Convolution: A Monte Carlo and Experimental Evaluation, Journal of X-Ray Science and Technology (2019)

24. Measurement of Imposed Radiation Dose and Normal Tissue Complications Probability to Lung and Heart in Patients With Mastectomy Using Two Common Tangential Radiotherapy Methods of Supraclavicular Nodes, Anterior-Posterior (Ap) and Two Parallel Opposed Fields (Pofs), Journal of Isfahan Medical School (2018)

25. Dosimetric Comparison of Two Methods of Three-Dimensional Conformal Radiotherapy and Helical Tomotherapy in Head and Neck Cancer Patients With Involvement of Regional Lymph Nodes, Journal of Isfahan Medical School (2023)

26. Potential Implications of the Radiation-Induced Bystander Effect for Spatially Fractionated Radiotherapy: A Theoretical Simulation Study, International Journal of Radiation Research (2022)

27. Secondary Cancer Risk After Radiotherapy of Seminoma Stage One, Iranian Journal of Medical Physics (2022)

28. Dosimetric Comparison of Treatment of Left Breast Cancer Using 3-Dimention Conformal Radiotherapy Technique and Tomotherapy, Journal of Isfahan Medical School (2022)

29. Radiobiological Evaluation and Comparison of Treatment Plans in Two Methods of 3D Adaptive Radiation Therapy and Tomotherapy for Left Pendular Breast Cancer and the Risk of Pericarditis and Pneumonia; [ارزیابی و مقایسهی رادیوبیولوژیکی طرحهای درمان در دو روش پرتودرمانی تطبیقی سه بعدی و توموتراپی], Journal of Isfahan Medical School (2023)

30. Comparison of Electromagnetic and Hadronic Models Generated Using Geant 4 With Antiproton Dose Measured in Cern, Journal of Medical Physics (2015)

31. Sensitivity Analysis of a 6 Mev Photon Beam Monte Carlo Model, Journal of Medical Signals and Sensors (2023)

32. Monte Carlo Modeling of Skyshine Dose Distribution in Vicinity of Medical Accelerator Facilities, Journal of Isfahan Medical School (2017)

33. Development and Implementation of the Convolution Method for Photon Dose Calculation in Radiation Therapy, Journal of Isfahan Medical School (2012)

34. Calculation of Excess Dose to the Eye Phantom Due to a Distanced Shielding for Electron Therapy in Head and Neck Cancers, Journal of Medical Signals and Sensors (2012)

35. Monte Carlo Evaluation of the Potential Benefits of Flattening Filter Free Beams From the Oncor ® Clinical Linear Accelerator, Journal of X-Ray Science and Technology (2018)

36. The Effectiveness of Silicone-Based Non-Lead Nanoparticles for Radiation Protection of Patients in Diagnostic Radiology by Monte Carlo Simulation, Journal of Isfahan Medical School (2022)

37. Evaluation of a Treatment Planning System for Applying the Effect of Titanium Clips on Isodosedistribution in Radiation Therapy of Colorectal Cancer, Journal of Isfahan Medical School (2017)

38. Ulexite-Galena Intermediate-Weight Concrete As a Novel Design for Overcoming Space and Weight Limitations in the Construction of Efficient Shields Against Neutrons and Photons, Radiation Protection Dosimetry (2013)

39. Characterization and Monte Carlo Simulation of Low- and High-Perturbation In-Vivo Diode Dosimeters for 9 Mv X-Rays, IFMBE Proceedings (2009)

40. Evaluation of Various Energy Windows at Different Radionuclides for Scatter and Attenuation Correction in Nuclear Medicine, Annals of Nuclear Medicine (2015)

41. Review of Fast Monte Carlo Codes for Dose Calculation in Radiation Therapy Treatment Planning, Journal of Medical Signals and Sensors (2011)

42. The Comparison of Radiation Dosimetry of Rectal Cancer in Two Supine and Prone Positions, Journal of Isfahan Medical School (2023)

43. Evaluation of Effective Field Size Characteristics for Small Megavoltage Photon Beam Dosimetry, International Journal of Radiation Research (2022)

44. Estimation of the Thyroid Secondary Cancer Risk on the Patient of Standard Breast External Beam Radiotherapy, Journal of Medical Signals and Sensors (2018)

45. Comparison and Evaluation of Different Treatment Plans With Ifrt Field and 6 and 18 Mv Energies in Hodgkin’S Lymphoma Involvement Neck and Mediastinum, Journal of Biomedical Physics and Engineering (2018)

46. Comparison of Organs at Risk Dose in Conventional (2-Dimensional) and Conformal (3-Dimensional) Radiotherapy of Seminoma, Journal of Isfahan Medical School (2018)

47. Evaluating the Effect of the Vacuum Bag on the Dose Distribution in Radiation Therapy, Journal of Cancer Research and Therapeutics (2018)

48. A Monte Carlo and Experimental Investigation of the Dosimetric Behavior of Low- and Medium-Perturbation Diodes Used for Entrance in Vivo Dosimetry in Megavoltage Photon Beams, Journal of Applied Clinical Medical Physics (2012)

49. Development and Implementation of a Monte Carlo Frame Work for Evaluation of Patient Specific Out- of - Field Organ Equivalent Dose, International Journal of Radiation Research (2017)

50. Assessment of Imprecise Small Photon Beam Modeling by Two Treatment Planning System Algorithms, Journal of Medical Signals and Sensors (2018)

Style	Citing Format
MLA	Karimi AH, et al.. "Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons." Computer Methods and Programs in Biomedicine, vol. 213, no. , 2022, pp. -.
APA	Karimi AH, Mirian SF, Mahmoudi F, Geraily G, Vegacarrillo HR, Mohiuddin M (2022). Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons. Computer Methods and Programs in Biomedicine, 213(), -.
Chicago	Karimi AH, Mirian SF, Mahmoudi F, Geraily G, Vegacarrillo HR, Mohiuddin M. "Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons." Computer Methods and Programs in Biomedicine 213, no. (2022): -.
Harvard	Karimi AH et al. (2022) 'Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons', Computer Methods and Programs in Biomedicine, 213(), pp. -.
Vancouver	Karimi AH, Mirian SF, Mahmoudi F, Geraily G, Vegacarrillo HR, Mohiuddin M. Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons. Computer Methods and Programs in Biomedicine. 2022;213():-.
BibTex	@article{ author = {Karimi AH and Mirian SF and Mahmoudi F and Geraily G and Vegacarrillo HR and Mohiuddin M}, title = {Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons}, journal = {Computer Methods and Programs in Biomedicine}, volume = {213}, number = {}, pages = {-}, year = {2022} }
RIS	TY - JOUR AU - Karimi AH AU - Mirian SF AU - Mahmoudi F AU - Geraily G AU - Vegacarrillo HR AU - Mohiuddin M TI - Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons JO - Computer Methods and Programs in Biomedicine VL - 213 IS - SP - EP - PY - 2022 ER -

Science Communicator Platform

Authors

Authors Affiliations

Abstract