Abstract
Background The dose distribution of heavy ions at the edge of the target region will have a steep decay during radiotherapy, which can better protect the surrounding organs at risk. Objective To analyze the dose decay gradient at the back edge of the target region during heavy ion radiotherapy. Methods Treatment planning system (TPS) was employed to analyze the dose decay at the edge of the beam under different incident modes and multiple dose segmentation conditions during fixed beam irradiation. The dose decay data of each plan was collected based on the position where the rear edge of the beam began to fall rapidly. Uniform scanning mode was selected in heavy ion TPS. Dose decay curves under different beam setup modes were drawn and compared. Results The dose decay data analysis showed that in the case of single beam irradiation, the posterior edge of the beam was 5 mm away, and the posterior dose could drop to about 20%. While irradiation in opposite direction, the posterior edge of the beam was 5 mm away, and the dose could drop to about 50%. In orthogonal irradiation of two beams, the posterior edge of the beam could drop to about 30-38% in a distance of 5 mm. Through the data analysis in the TPS, the sharpness of the dose at the back edge of the heavy ion beam is better than that at the lateral edge, but the generated X-ray contamination cannot be ignored. Conclusions The effect of uneven CT value on the dose decay of heavy ion beam should also be considered in clinical treatment.
Highlights
Surgery, radiotherapy, and chemotherapy are three main methods for treating cancer, among which radiotherapy plays an increasingly prominent role in tumor treatment [1]
The overall dose was slightly higher in the hypofractionation (10 Gy (RBE)) for a single fraction, especially in the single beam irradiation and two-beam irradiation in opposite direction, which may because of the greater X-ray contamination caused by the higher dose, which still needs to be confirmed by actual measurement
When a heavy ion beam is used for radiotherapy, because of its unique physical characteristics, the dose at the edge of the target area falls very rapidly as revealed in the analysis of the data in the planning system
Summary
The dose distribution of heavy ions at the edge of the target region will have a steep decay during radiotherapy, which can better protect the surrounding organs at risk. To analyze the dose decay gradient at the back edge of the target region during heavy ion radiotherapy. Treatment planning system (TPS) was employed to analyze the dose decay at the edge of the beam under different incident modes and multiple dose segmentation conditions during fixed beam irradiation. The dose decay data analysis showed that in the case of single beam irradiation, the posterior edge of the beam was 5 mm away, and the posterior dose could drop to about 20%. While irradiation in opposite direction, the posterior edge of the beam was 5 mm away, and the dose could drop to about 50%. Through the data analysis in the TPS, the sharpness of the dose at the back edge of the heavy ion beam is better than that at the lateral edge, but the generated X-ray contamination cannot be ignored. The effect of uneven CT value on the dose decay of heavy ion beam should be considered in clinical treatment
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