Оптимизация проведения сочетанного курса лучевой терапии у больных раком прямой кишки

Abstract

Due to the new rapidly developed technological equipment for radiotherapy available in cancer clinics, the study of the optimal combination of topometric preparation of a patient with planning and the delivery of treatment in order to achieve the main goal of radiation therapy – maximum exposure of the foci with minimal damage to healthy tissue. The reduction of dose to critical or-gans and healthy tissues in general is an important and urgent task. The purpose of the paper is to explore the possibility of optimization of the combined radiation therapy in patients with rectal cancer, with account of advanced approaches to topometric preparation of a patient and dosime-try planning. Six patients 47-59 years of age, with the stage III of the lower ampullary rectal can-cer, received two-phase pre-operative combined radiotherapy at the Tomsk Cancer Research In-stitute NMRC. The Phase 1 – distant radiation therapy delivery in standard mode with a single fo-cal dose (ROD) of 2 Gy, 5 times a week, totally 20 fractions, to focal dose (SOD) of 40 Gy. The Phase 2 – intracavitary radiation therapy, ROD – 3 Gy, SOD – 15 Gy, locally in the tumor area, 2 times a week, total number – 5 fractions. The conventional radiation therapy planning was carried out with the use of the XiO 3-D dosimetry planning system for the "Theratron Equinox 80" (radia-tion of the isotope Co-60, Egamma=1.25 MeV), gamma-therapeutic apparatus, and for the SL75-5-MT (Electron braking radiation, E=6 MeV) linear accelerator. For conformal radial therapy the plan-ning system for linear accelerator «Elekta Synergy» (electron brake radiation, E=6 MeV) is used. For intracavitary radiotherapy the dosimetry planning system HDRPlus for the apparatus "Multi-Source" (radiation of isotope Co-60, Egamma=1.25 MeV) is used. Radiation doses to critical organs of pa-tients with lower ampullary rectal cancer exposed to combined course of radiotherapy was calculated. It has been shown that the use of advanced techniques for pretreatment topometric preparation of a patient and dosimetry planning makes possible optimization of combined radiotherapy with account of radiation doses to critical organs.