被动散射质子治疗与调强光子治疗 III 期肺癌的呼吸运动效应:质子计划对呼吸运动更敏感吗?
Effects of respiratory motion on passively scattered proton therapy versus intensity modulated photon therapy for stage III lung cancer: are proton plans more sensitive to breathing motion?
机构信息
Department of Radiation Physics, University of Texas MD Anderson Cancer Center, Houston, Texas; The University of Texas Graduate School of Biomedical Sciences, Houston, Texas.
出版信息
Int J Radiat Oncol Biol Phys. 2013 Nov 1;87(3):576-82. doi: 10.1016/j.ijrobp.2013.07.007.
PURPOSE
To quantify and compare the effects of respiratory motion on paired passively scattered proton therapy (PSPT) and intensity modulated photon therapy (IMRT) plans; and to establish the relationship between the magnitude of tumor motion and the respiratory-induced dose difference for both modalities.
METHODS AND MATERIALS
In a randomized clinical trial comparing PSPT and IMRT, radiation therapy plans have been designed according to common planning protocols. Four-dimensional (4D) dose was computed for PSPT and IMRT plans for a patient cohort with respiratory motion ranging from 3 to 17 mm. Image registration and dose accumulation were performed using grayscale-based deformable image registration algorithms. The dose-volume histogram (DVH) differences (4D-3D [3D = 3-dimensional]) were compared for PSPT and IMRT. Changes in 4D-3D dose were correlated to the magnitude of tumor respiratory motion.
RESULTS
The average 4D-3D dose to 95% of the internal target volume was close to zero, with 19 of 20 patients within 1% of prescribed dose for both modalities. The mean 4D-3D between the 2 modalities was not statistically significant (P<.05) for all dose-volume histogram indices (mean ± SD) except the lung V5 (PSPT: +1.1% ± 0.9%; IMRT: +0.4% ± 1.2%) and maximum cord dose (PSPT: +1.5 ± 2.9 Gy; IMRT: 0.0 ± 0.2 Gy). Changes in 4D-3D dose were correlated to tumor motion for only 2 indices: dose to 95% planning target volume, and heterogeneity index.
CONCLUSIONS
With our current margin formalisms, target coverage was maintained in the presence of respiratory motion up to 17 mm for both PSPT and IMRT. Only 2 of 11 4D-3D indices (lung V5 and spinal cord maximum) were statistically distinguishable between PSPT and IMRT, contrary to the notion that proton therapy will be more susceptible to respiratory motion. Because of the lack of strong correlations with 4D-3D dose differences in PSPT and IMRT, the extent of tumor motion was not an adequate predictor of potential dosimetric error caused by breathing motion.
目的
定量比较和比较呼吸运动对被动散射质子治疗(PSPT)和强度调制光子治疗(IMRT)计划的影响;并确定两种模式下肿瘤运动幅度与呼吸诱导剂量差异之间的关系。
方法和材料
在一项比较 PSPT 和 IMRT 的随机临床试验中,根据常见的计划方案设计了放射治疗计划。对于呼吸运动范围为 3 至 17 毫米的患者队列,计算了 4D(4D)剂量的 PSPT 和 IMRT 计划。使用基于灰度的可变形图像配准算法进行图像配准和剂量累积。比较 PSPT 和 IMRT 的剂量体积直方图(DVH)差异(4D-3D[3D=3 维])。将 4D-3D 剂量的变化与肿瘤呼吸运动的幅度相关联。
结果
95%的内部靶体积的平均 4D-3D 剂量接近零,20 名患者中有 19 名接受了两种模式的处方剂量的 1%以内。两种模式之间的平均 4D-3D 在所有剂量体积直方图指标(平均值±标准差)上均无统计学意义(P<.05),除了肺 V5(PSPT:+1.1%±0.9%;IMRT:+0.4%±1.2%)和最大脊髓剂量(PSPT:+1.5±2.9 Gy;IMRT:0.0±0.2 Gy)外。只有 2 个 4D-3D 剂量(95%的计划靶体积剂量和不均匀性指数)与肿瘤运动相关。
结论
在呼吸运动高达 17 毫米的情况下,我们目前的边界形式在 PSPT 和 IMRT 中均保持了靶区覆盖。只有 2 个 4D-3D 指数(肺 V5 和脊髓最大)在 PSPT 和 IMRT 之间具有统计学差异,与质子治疗对呼吸运动更敏感的观点相反。由于 PSPT 和 IMRT 中与 4D-3D 剂量差异的相关性不强,肿瘤运动的程度不是呼吸运动引起潜在剂量误差的充分预测指标。
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