用于考虑肺癌患者解剖结构变化的调强质子治疗中的稳健优化。

Robust optimization in intensity-modulated proton therapy to account for anatomy changes in lung cancer patients.

作者信息

Li Heng, Zhang Xiaodong, Park Peter, Liu Wei, Chang Joe, Liao Zhongxing, Frank Steve, Li Yupeng, Poenisch Falk, Mohan Radhe, Gillin Michael, Zhu Ronald

机构信息

Department of Radiation Physics, The University of Texas MD Anderson Cancer Center, Houston, TX, USA.

出版信息

Radiother Oncol. 2015 Mar;114(3):367-72. doi: 10.1016/j.radonc.2015.01.017. Epub 2015 Feb 20.

DOI:10.1016/j.radonc.2015.01.017

PMID:25708992

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4400219/

Abstract

BACKGROUND AND PURPOSE

Robust optimization for IMPT takes setup and range uncertainties into account during plan optimization. However, anatomical changes were not prospectively included. The purpose of this study was to examine robustness and dose variation due to setup uncertainty and anatomical change in IMPT of lung cancer.

MATERIAL AND METHODS

Plans were generated with multi-field optimization based on planning target volume (MFO-PTV) and worst-case robust optimization (MFO-RO) on simulation computed tomography scans (CT0) for nine patients. Robustness was evaluated on the CT0 by computing the standard deviation of DVH (SD-DVH). Dose variations calculated on weekly CTs were compared with SD-DVH. Equivalent uniform dose (EUD) change from the original plan on weekly dose was also calculated for both plans.

RESULTS

SD-DVH and dose variation on weekly CTs were both significantly lower in the MFO-RO plans than in the MFO-PTV plans for targets, lungs, and the esophagus (p<0.05). When comparing EUD for ITV between weekly and planned dose distributions, three patients and 28% of repeated CTs for MFO-RO plans, and six patients and 44% of repeated CTs for MFO-PTV plans, respectively, showed an EUD change of >5%.

CONCLUSIONS

RO in IMPT reduces the dose variation due to setup uncertainty and anatomy changes during treatment compared with PTV-based planning. However, dose variation could still be substantial; repeated imaging and adaptive planning as needed are highly recommended for IMPT of lung tumors.

摘要

背景与目的

调强质子治疗（IMPT）的稳健优化在计划优化过程中考虑了摆位和射程不确定性。然而，未前瞻性纳入解剖结构变化。本研究的目的是检验肺癌IMPT中由于摆位不确定性和解剖结构变化导致的稳健性和剂量变化。

材料与方法

在9例患者的模拟计算机断层扫描（CT0）上，基于计划靶区（MFO-PTV）和最坏情况稳健优化（MFO-RO）生成多野优化计划。通过计算剂量体积直方图的标准差（SD-DVH）在CT0上评估稳健性。将每周CT上计算的剂量变化与SD-DVH进行比较。还计算了两种计划每周剂量相对于原始计划的等效均匀剂量（EUD）变化。

结果

对于靶区、肺和食管，MFO-RO计划的SD-DVH和每周CT上的剂量变化均显著低于MFO-PTV计划（p<0.05）。比较ITV在每周和计划剂量分布之间的EUD时，MFO-RO计划分别有3例患者和28%的重复CT显示EUD变化>5%，MFO-PTV计划有6例患者和44%的重复CT显示EUD变化>5%。

结论

与基于PTV的计划相比，IMPT中的稳健优化可减少治疗期间由于摆位不确定性和解剖结构变化导致的剂量变化。然而，剂量变化仍可能很大；对于肺部肿瘤的IMPT，强烈建议根据需要进行重复成像和自适应计划。

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