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Medical Radiology and Radiation Safety. 2022. Vol. 67. № 3
E.M. Ivanov, G.I. Klenov, V.I. Maksimov, V.S. Khoroshkov, A.N. Chernykh
Prospects for the Development of Proton Therapy in Russia
National Research Centre “Kurchatov Institute”, Moscow, Russia
Contact person: A.N. Chernykh, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
ABSTRAKT
It is generally accepted that a proton therapy is one of the most effective method of external beam radiotherapy. Proton therapy has the highest conformal factor even compared with the most modern facilities for radiotherapy which use electron beam or gamma rays. Accuracy of combination of the 90–95 % isodose surface with PTV is better and dose gradients outside PTV is steeper, also integral dose of radiation from proton therapy for a healthy tissue is less than two times that for gamma irradiation. We can clearly see it comparing a HDV of treatment plan for gamma irradiation and proton therapy for the same clinical cases. In last years a lifespan of patient after radiotherapy treatment is a quit extended, so a question for quality of life for them is more significant. Decreasing of integral dose for a healthy tissue reduces a chance of negative effects from radiotherapy that would mostly appear after a lot years after treatment, so named late side effects. Quality of life is even more important in the case of pediatric oncology, when we not only expect a long healthy life for them, but also have aim to exclude side effects from their development.
There was a long term clinical investigation in 1954–1990 years in ten experimental centers (among them clinical data: 50% in USA, 30% in USSR/Russia) that had confirmed the described advantages of proton therapy. These clinical results formed a foundation of quick development proton therapy clinical centers in developed countries in 1990s. These centers are based on oncology and multidisciplinary hospitals and treat 1000 and more patients per year. There are 96 working and 38 constructing PTCs in the world for today. Although we have a lot of experience in proton therapy in Russia, we didn’t take part in this new stage. In fact a patient treatment was over in all of three experimental PTCs (Moscow, Dubna, St. Petersburg) up to 2014. Thus we have a delay in a development of proton therapy for 30 years from a world level.
Government of the Russian Federation Decree № 287 of 16th March 2020 establishes Program, which has to overcome this delay in development. Main science executer of the Program is National Research Center «Kurchatov Institute», which has an experience, scientific potential and competence for it.
The main aims, stages and objects of the Program are presented.
Keywords: proton beam therapy (PBT), synchrotron, PBT clinical center, prospects
For citation: Ivanov EM, Klenov GI, Maksimov VI, Khoroshkov VS, Chernykh AN. Prospects for the Development of Proton Therapy in Russian. Medical Radiology and Radiation Safety. 2022;67(3):41–46. (In Russian). DOI:10.33266/1024-6177-2022-67-3-41-46
References
1. Хорошков В.С. История и перспективы протонной терапии // Медицинская радиология и радиационная безопасность. 2019. Т.64, № 2. С. 52-60. [Khoroshkov VS. History and Prospects of Proton Therapy. Medical Radiology and Radiation Safety. 2019;64;2:52-60 (In Russ.)]. DOI: 10.12737/article_5ca5fc2765c9f5.02525917.
2. WWW.PTCOG (Proton Therapy Co-Operative Group), Particles Newsletters, 1990, № 5, р.9.
3. WWW.PTCOG (Particles Therapy Co-Operative Group), Online 2020.
The video streams of the meeting (Track 1 to 4)
4. Карпунин В.О., Кленов Г.И., Хорошков В.С. Первый в России специализированный, клинический центр протонной лучевой терапии // Альманах клинической медицины. 2008. № 17-1. С. 316-319. [Karpunin VO, Klenov GI, Khoroshkov VS. Russia’s First Specialized Clinical Center for Proton Beam Therapy. Almanac of Clinical Medicine (In Russ.)].
5. Ломанов М.Ф., Ерохин И.Н., Канчели И.Н., Орлов Д.Г., Рудской И.В. Разработка метода планирования протонного облучения внутриглазных новообразований // Медицинская физика. 2012. № 4. С. 43–51. [Lomanov MF, Erokhin IN, Kancheli IN, Orlov DG, Roudskoy IV. Development of Treatment Planning Methods for Proton Irradiation of Intraocular Neoplasms. Medical Physics. 2012;№ 4:43–51. (In Russ.)].
6. Орлов Д.Г., Владимирова О.М., Ерохин И.Н., Ломанов М.Ф., Саакян С.В., Вальский В.В. и др. Представление модели глаза для использования в системе дозно-анатомического планирования лучевой протонной терапии внутриглазных новообразований // Российский офтальмологический журнал. 2013. Т.6, № 4. С. 48-54. [Orlov DG, Vladimirova OM, Erokhin IN, Lomanov MF, Saakyan SV, Valsky VV, et al. Presenting an eye model for the application in dosage and anatomic planning for proton therapy of intraocular tumors. Russian Ophthalmological Journal. 2013;6(4):48-54. (In Russ.)].
7. Бородин Ю.И., Вальский В.В., Ерохин И.Н., Канчели И.Н., Ломанов М.Ф., Люлевич В.И. и др. Инновационные разработки технических средств для протонной терапии внутриглазных новообразований. Часть I // Российский офтальмологический журнал. 2015. Т.8, № 2. С. 14-20. [Borodin YuI, Valsky VV, Erokhin IN, Kancheli I.N, Lomanov MF, et al. Technical innovations for proton therapy of intraocular neoplasms. Part I. Russian Ophthalmological Journal. 2015;8;2:14-20. (In Russ.)].
8. Бородин Ю.И., Вальский В.В., Ерохин И.Н., Канчели И.Н., Ломанов М.Ф., Люлевич В.И. и др. Инновационные разработки технических средств для протонной терапии внутриглазных новообразований. Часть II // Российский офтальмологический журнал. 2016. Т.9, № 2. С. 11-17. [Borodin YuI, Valsky VV, Erokhin IN, Kancheli IN, Lomanov MF, Lyulevich VI, et al. Technical Innovations for Proton Therapy of Intraocular Neoplasms. Part II. Russian Ophthalmological Journal. 2016;9;2:11-17. (In Russ.)].
9. Минкин Д.Ю., Максимов В.И., Иванов Е.М., Хорошков В.С., Кленов Г.И., Черных А.Н. Онкоофтальмологический комплекс в НИЦ «Курчатовский институт» – ПИЯФ. Исследования и практика в медицине. 2018. Т.5, № 52. С. 181. [Minkin DYu, Maksimov VI, Ivanov EM, Khoroshcov VS, Klenov GI, Chernykh AN. Onco-Ophthalmologic Complex in NRC “Kurchatov Institute” – PNPI. Research’n Practical Medicine Journal. 2018;5;52:181. (In Russ.)].
PDF (RUS) Full-text article (in Russian)
Conflict of interest. The authors declare no conflict of interest.
Financing. The work was supported by the National Research Center «Kurchatov institute» (order dated October 28, 2021 No. 2751).
Contribution. Article was prepared with equal participation of the authors.
Article received: 17.01.2022. Accepted for publication: 15.03.2022.