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Essential Considerations for Accurate Evaluation of Photoneutron Contamination in Radiotherapy Publisher Pubmed



Karimi AH1 ; Brkic H2, 3 ; Shahbazigahrouei D4 ; Haghighi SB5 ; Jabbari I6
Authors
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Authors Affiliations
  1. 1. Department of Medical Physics, School of Medicine, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran
  2. 2. Department of Biophysics and Radiology, Faculty of Medicine, University of J.J. Strossmayer, Osijek, Croatia
  3. 3. Department of Biophysics and Radiology, Faculty of Dental Medicine and Health, University of J.J. Strossmayer, Osijek, Croatia
  4. 4. Department of Medical Physics, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran
  5. 5. Department of General Courses, School of Medicine, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran
  6. 6. Department of Nuclear Engineering, Faculty of Advanced Sciences and Technologies, University of Isfahan, Isfahan, Iran

Source: Applied Radiation and Isotopes Published:2019


Abstract

Nowadays, high-energy X-rays produced by medical linear accelerators (LINACs) are widely used in many Radiation Therapy (RT) centers. High-energy photons (> 8 MeV) produce undesired neutrons in the LINAC head which raise concerns about unwanted neutron dose to the patients and RT personnel. Regarding the significance of radiation protection in RT, it is important to evaluate photoneutron contamination inside the RT room. Unfortunately, neutron dosimeters used for this purpose have limitations that can under the best conditions cause to > 10% uncertainty. In addition to this uncertainty, the present Monte Carlo (MC) study introduces another uncertainty in measurements (nearly up to 20%) when neutron ambient dose equivalent (H n * (10)) is measured at the patient table or inside the maze and the change in neutron energy is ignored. This type of uncertainty can even reach 35% if H n * (10) is measured by dosimeters covered by a layer of 10 B as converter. So, in these cases, neglecting the change in neutron energy can threaten the credibility of measured data and one should attend to this energy change in order to reduce measurement uncertainty to the possible minimum. This study also discusses the change in neutron spectra and H n * (10) at the patient table caused by removing a typical RT room from MC simulations. Under such conditions, neutron mean energy (E n ) overestimated by 0.2–0.4 MeV at the patient table. Neutron fluence (φ n ) at the isocenter (IC) was underestimated by 23–54% for different field sizes that caused H n * (10) to be miscalculated up to 24%. This finding informs researchers that for accurate evaluation of H n * (10) at the patient table, simulating the RT room is an effective parameter in MC studies. © 2018 Elsevier Ltd
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