Spezi Emiliano, Lewis D Geraint
Department of Medical Physics, Velindre Hospital, Cardiff, UK.
Radiother Oncol. 2006 May;79(2):224-30. doi: 10.1016/j.radonc.2006.03.020. Epub 2006 May 11.
The technique known as the 'gamma evaluation method' incorporates pass-fail criteria for both distance-to-agreement and dose difference analysis of 3D dose distributions and provides a numerical index (gamma) as a measure of the agreement between two datasets. As the gamma evaluation index is being adopted in more centres as part of treatment plan verification procedures for 2D and 3D dose maps, the development of methods capable of encapsulating the information provided by this technique is recommended.
In this work the concept of gamma index was extended to create gamma histograms (GH) in order to provide a measure of the agreement between two datasets in two or three dimensions. Gamma area histogram (GAH) and gamma volume histogram (GVH) graphs were produced using one or more 2D gamma maps generated for each slice of the irradiated volume. GHs were calculated for IMRT plans, evaluating the 3D dose distribution from a commercial treatment planning system (TPS) compared to a Monte Carlo (MC) calculation used as reference dataset.
The extent of local anatomical inhomogenities in the plans under consideration was strongly correlated with the level of difference between reference and evaluated calculations. GHs provided an immediate visual representation of the proportion of the treated volume that fulfilled the gamma criterion and offered a concise method for comparative numerical evaluation of dose distributions.
We have introduced the concept of GHs and investigated its applications to the evaluation and verification of IMRT plans. The gamma histogram concept set out in this paper can provide a valuable technique for quantitative comparison of dose distributions and could be applied as a tool for the quality assurance of treatment planning systems.
“伽马评估方法”这一技术纳入了三维剂量分布的距离一致性和剂量差异分析的通过/失败标准,并提供一个数值指标(伽马)来衡量两个数据集之间的一致性。随着伽马评估指标在更多中心被用作二维和三维剂量图治疗计划验证程序的一部分,建议开发能够概括该技术所提供信息的方法。
在本研究中,伽马指数的概念被扩展以创建伽马直方图(GH),以便在二维或三维中衡量两个数据集之间的一致性。伽马面积直方图(GAH)和伽马体积直方图(GVH)图是使用为照射体积的每个切片生成的一个或多个二维伽马图制作的。针对调强放射治疗(IMRT)计划计算GH,将商业治疗计划系统(TPS)评估的三维剂量分布与用作参考数据集的蒙特卡罗(MC)计算结果进行比较。
所考虑计划中局部解剖不均匀性的程度与参考计算和评估计算之间的差异水平密切相关。GH立即直观地显示了符合伽马标准的治疗体积比例,并提供了一种简洁的方法用于剂量分布的比较数值评估。
我们引入了GH的概念,并研究了其在IMRT计划评估和验证中的应用。本文阐述的伽马直方图概念可为剂量分布的定量比较提供一种有价值的技术,并可作为治疗计划系统质量保证的工具。
