Out-of-field organ doses and associated risk of cancer development following radiation therapy with photons |
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| Affiliation: | 1. Departamento de Fisiología Médica y Biofísica, Universidad de Sevilla, Spain;2. Servicio de Radiofísica, Hospital Universitario Virgen Macarena, Sevilla, Spain;3. Instituto de Física, Pontificia Universidad Católica de Chile, Santiago de Chile, Chile;4. Istituto Nazionale di Fisica Nucleare, Frascati, Italy;1. Graduate School of Health Sciences, Kumamoto University, 4-24-1 Kuhonji, Chuo-ku, Kumamoto 862-0976, Japan;2. Department of Health Sciences, Faculty of Life Sciences, Kumamoto University, 4-24-1 Kuhonji, Chuo-ku, Kumamoto 862-0976, Japan;1. Department of Radiation Oncology, State Key Laboratory of Oncology in South China, Collaborative Innovation Center for Cancer Medicine, Sun Yat-sen University Cancer Center, NO. 651 Dongfeng Road, Guangzhou 510060, China;2. Department of Radiotherapy, Zhongshan Affiliated Hospital, Guangzhou University of Chinese Medicine, NO. 3 Kangxin Road West District, Zhongshan 528401, China;1. Department of Radiological Technology, Yamaguchi University Hospital, 1-1-1 Minamikogushi, Ube 755-8505, Japan;2. Department of Health Sciences, Faculty of Life Sciences, Kumamoto University, 4-24-1 Kuhonji, Kumamoto 862-0976, Japan;1. Hospital Universitario Lucus Augusti, R. Dr. Ulises Romero, 1, E-27003 Lugo, Spain;2. Centro Oncolóxico de Galicia, R. Dr. Camilo Veiras, 1, E-15009 A Coruña, Spain;3. Complexo Hospitalario Universitario de Vigo, Meixoeiro S/N, E-36200 Vigo, Spain;4. Complexo Hospitalario Universitario de Santiago, R. Choupana S/N, E-15706 Santiago de Compostela, Spain;5. Radiation Physics Laboratory, RIAIDT, University of Santiago de Compostela, E. San Lourenzo S/N, E-15705 Santiago de Compostela, Spain |
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| Abstract: | Innovations in cancer treatment have contributed to the improved survival rate of these patients. Radiotherapy is one of the main options for cancer management nowadays. High doses of ionizing radiation are usually delivered to the tumor site with high energy photon beams. However, the therapeutic radiation exposure may lead to second cancer induction. Moreover, the introduction of intensity-modulated radiation therapy over the last decades has increased the radiation dose to out-of-field organs compared to that from conventional irradiation. The increased organ doses might result in elevated probabilities for developing secondary malignancies to critical organs outside the treatment volume. The organ-specific dosimetry is considered necessary for the theoretical second cancer risk assessment and the proper analysis of data derived from epidemiological reports. This study reviews the methods employed for the measurement and calculation of out-of-field organ doses from exposure to photons and/or neutrons. The strengths and weaknesses of these dosimetric approaches are described in detail. This is followed by a review of the epidemiological data associated with out-of-field cancer risks. Previously published theoretical cancer risk estimates for adult and pediatric patients undergoing radiotherapy with conventional and advanced techniques are presented. The methodology for the theoretical prediction of the probability of carcinogenesis to out-of-field sites and the limitations of this approach are discussed. The article also focuses on the factors affecting the magnitude of the probability for developing radiotherapy-induced malignancies. The restriction of out-of-field doses and risks through the use of different types of shielding equipment is presented. |
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| Keywords: | Radiation therapy Out-of-field organs Organ dose Cancer risk |
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