Investigation of neutron dose and secondary cancer risk in pelvic and brain radiotherapy with a high-energy LINAC
Publish place: Radiation Physics and Engineering، Vol: 6، Issue: 1
Publish Year: 1404
نوع سند: مقاله ژورنالی
زبان: English
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JR_RPE-6-1_008
تاریخ نمایه سازی: 1 دی 1403
Abstract:
This work aimed to assess the secondary cancer risk for patients undergoing brain and pelvic radiotherapy with high-energy linear accelerators (LINAC). Photoneutrons are produced in the LINAC's head when operating above ۷ MeV and are not considered in radiotherapy treatment planning. The MCNPX۲.۶ Monte Carlo code was used for LINAC's head simulation. The photon and neutron doses were calculated in tissues/organs of an International Commission on Radiological Protection (ICRP) male reference voxel phantom undergoing pelvic and brain radiotherapy. The results indicated that the neutron equivalent dose was higher for tissues/organs located close to skin and, contrary to the photon equivalent dose, did not decrease sharply for tissues/organs outside of the irradiation field. Notably, neutron equivalent dose distribution was almost homogenous in whole body and did not depend on the treatment type and location of target organ. Therefore, an undesirable dose was received by healthy tissues/organs, leading to an increase in secondary cancer risk. Based on the obtained results, the neutron effective dose for the pelvic and brain treatment were ۰.۲۰ and ۰.۲۶ mSv.Gy-۱, respectively. The results also indicated that maximum secondary cancer risk due to neutrons was for colon (۰.۰۲۶ %) in the pelvic treatment, while in brain treatment, it belongs to stomach (۰.۰۳۶ %) for a delivered dose of ۷۰ Gy. It is recommended that a mean neutron effective dose value of ۰.۲۳ mSv.Gy-۱ can be considered in brain and pelvic treatment planning for evaluating the secondary cancer risk of high-energy LINAC radiotherapy.
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Authors
Najmeh Mohammadi
Sahand University of Technology, Tabriz, Iran
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