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Dosimetric benefits of robust treatment planning for intensity modulated proton therapy for base-of-skull cancers.针对颅底癌的调强质子治疗,稳健治疗计划的剂量学优势。
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Patterns of local failure for sinonasal malignancies.鼻窦恶性肿瘤的局部失败模式。
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Potential advantages of volumetric arc therapy in head and neck cancer.容积弧形调强放疗在头颈癌治疗中的潜在优势。
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Predictive treatment management: incorporating a predictive tumor response model into robust prospective treatment planning for non-small cell lung cancer.预测性治疗管理:将预测性肿瘤反应模型纳入非小细胞肺癌的稳健前瞻性治疗计划中。
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容积调强弧形放疗治疗头颈癌中稳健性量化方法的比较

Robustness quantification methods comparison in volumetric modulated arc therapy to treat head and neck cancer.

作者信息

Liu Wei, Patel Samir H, Shen Jiajian Jason, Hu Yanle, Harrington Daniel P, Ding Xiaoning, Halyard Michele Y, Schild Steven E, Wong William W, Ezzell Gary A, Bues Martin

机构信息

Department of Radiation Oncology, Mayo Clinic Hospital, Phoenix, Arizona.

Department of Radiation Oncology, Mayo Clinic Hospital, Phoenix, Arizona.

出版信息

Pract Radiat Oncol. 2016 Nov-Dec;6(6):e269-e275. doi: 10.1016/j.prro.2016.02.002. Epub 2016 Feb 13.

DOI:10.1016/j.prro.2016.02.002
PMID:27025166
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4983261/
Abstract

BACKGROUND

To compare plan robustness of volumetric modulated arc therapy (VMAT) with intensity modulated radiation therapy (IMRT) and to compare the effectiveness of 3 plan robustness quantification methods.

METHODS AND MATERIALS

The VMAT and IMRT plans were created for 9 head and neck cancer patients. For each plan, 6 new perturbed dose distributions were computed using ±3 mm setup deviations along each of the 3 orientations. Worst-case analysis (WCA), dose-volume histogram (DVH) band (DVHB), and root-mean-square dose-volume histogram (RVH) were used to quantify plan robustness. In WCA, a shaded area in the DVH plot bounded by the DVHs from the lowest and highest dose per voxel was displayed. In DVHB, we displayed the envelope of all DVHs in band graphs of all the 7 dose distributions. The RVH represents the relative volume on the vertical axis and the root-mean-square-dose on the horizontal axis. The width from the first 2 methods at different target DVH indices (such as D and D) and the area under the RVH curve for the target were used to indicate plan robustness. Results were compared using Wilcoxon signed-rank test.

RESULTS

The DVHB showed that the width at D of IMRT was larger than that of VMAT (unit Gy) (1.59 vs 1.18) and the width at D of IMRT was comparable to that of VMAT (0.59 vs 0.54). The WCA showed similar results between IMRT and VMAT plans (D: 3.28 vs 3.00; D: 1.68 vs 1.95). The RVH showed the area under the RVH curve of IMRT was comparable to that of VMAT (1.13 vs 1.15). No statistical significance was found in plan robustness between IMRT and VMAT.

CONCLUSIONS

The VMAT is comparable to IMRT in terms of plan robustness. For the 3 quantification methods, WCA and DVHB are DVH parameter-dependent, whereas RVH captures the overall effect of uncertainties.

摘要

背景

比较容积调强弧形放疗(VMAT)与调强放射治疗(IMRT)的计划稳健性,并比较三种计划稳健性量化方法的有效性。

方法与材料

为9例头颈癌患者制定VMAT和IMRT计划。对于每个计划,使用沿3个方向各自的±3 mm设置偏差计算6个新的扰动剂量分布。采用最坏情况分析(WCA)、剂量体积直方图(DVH)带(DVHB)和均方根剂量体积直方图(RVH)来量化计划稳健性。在WCA中,显示DVH图中由每个体素最低和最高剂量的DVH界定的阴影区域。在DVHB中,我们在所有7个剂量分布的带状图中显示所有DVH的包络线。RVH在垂直轴上表示相对体积,在水平轴上表示均方根剂量。前两种方法在不同靶区DVH指数(如D和D)处的宽度以及靶区RVH曲线下的面积用于表示计划稳健性。使用Wilcoxon符号秩检验比较结果。

结果

DVHB显示IMRT在D处的宽度大于VMAT(单位Gy)(1.59对1.18),IMRT在D处的宽度与VMAT相当(0.59对0.54)。WCA显示IMRT和VMAT计划之间的结果相似(D:3.28对3.00;D:1.68对1.95)。RVH显示IMRT的RVH曲线下面积与VMAT相当(1.13对1.15)。IMRT和VMAT之间的计划稳健性未发现统计学差异。

结论

VMAT在计划稳健性方面与IMRT相当。对于这三种量化方法,WCA和DVHB依赖于DVH参数,而RVH捕获不确定性的总体影响。