Plan robustness of craniospinal irradiation with VMAT
10.3760/cma.j.issn.1673-4181.2019.01.009
- VernacularTitle:全脑全脊髓VMAT计划的稳健性研究
- Author:
Jian XU
1
;
Qiang WANG
;
Keqiang WANG
;
Huipeng MENG
;
Huajiang DONG
Author Information
1. 武警后勤学院人体形态学教研室
- Keywords:
Craniospinal irradiation;
Volumetric modulated arc therapy;
Robustness;
Overlap gradient-optimization
- From:
International Journal of Biomedical Engineering
2019;42(1):50-54,65
- CountryChina
- Language:Chinese
-
Abstract:
Objective To compare the dosimetric characteristics of the methods of volumetric modulated arc therapy ( VMAT ) for craniospinal irradiation , and to compare their robustness to the field placement error . Methods Six patients receiving craniospinal irradiation were included. VMAT plans of each patient were optimized with overlap method and gradient-optimization method respectively using Pinnacle 9.8 VMAT treatment planning system. The length of the overlap region was set as 3 and 9 cm, respectively. Then the dose distributions under different VMAT programs were measured. Moreover, a 3 mm placement error was introduced, and the dose cold spot in the field junction region obtained by each plan was compared for robustness analysis. Results Under different overlapping lengths, the overlap method and the gradient optimization method both can optimize the VMAT plan that meeting the clinical requirements. In the field junction region, the dose distribution obtained by the overlap method was more uniform, and the difference in the uniformity index was statistically significant. When introducing a 3 mm placement error, the gradient optimization method obtained the most robust VMAT plan at 9 cm overlap length, and the overlap method could not obtained stabilized robust plan. Conclusions For the optimization of craniospinal irradiation VMAT plan, the commonly used overlap method can obtain a better dose distribution, but it can't improve robustness by increasing overlap length. However, using the gradient optimization method, the dose homogeneity in the field junction region is not good as the overlap method, but the plan robustness can be improved by increasing the overlap length.
