肺部肿瘤立体定向体部放疗中的剂量分布：两种不同治疗计划算法与包含呼吸运动的蒙特卡罗模拟之间的比较

Dose distributions in SBRT of lung tumors: Comparison between two different treatment planning algorithms and Monte-Carlo simulation including breathing motions.

作者信息

Lax Ingmar, Panettieri Vanessa, Wennberg Berit, Amor Duch Maria, Näslund Ingemar, Baumann Pia, Gagliardi Giovanna

机构信息

Department of Hospital Physics, Karolinska University Hospital and Institute, Stockholm, Sweden.

出版信息

Acta Oncol. 2006;45(7):978-88. doi: 10.1080/02841860600900050.

DOI:10.1080/02841860600900050

PMID:16982567

Abstract

In stereotactic body radiotherapy (SBRT) of lung tumors, dosimetric problems arise from: 1) the limited accuracy in the dose calculation algorithms in treatment planning systems, and 2) the motions with the respiration of the tumor during treatment. Longitudinal dose distributions have been calculated with Monte Carlo simulation (MC), a pencil beam algorithm (PB) and a collapsed cone algorithm (CC) for two spherical lung tumors (2 cm and 5 cm diameter) in lung tissue, in a phantom situation. Respiratory motions were included by a convolution method, which was validated. In the static situation, the PB significantly overestimates the dose, relative to MC, while the CC gives a relatively accurate estimate. Four different respiratory motion patterns were included in the dose calculation with the MC. A "narrowing" of the longitudinal dose profile of up to 20 mm (at about 90% dose level) is seen relative the static dose profile calculated with the PB.

摘要

在肺部肿瘤的立体定向体部放射治疗（SBRT）中，剂量学问题源于：1）治疗计划系统中剂量计算算法的精度有限，以及2）治疗期间肿瘤随呼吸的运动。在体模情况下，针对肺组织中两个球形肺肿瘤（直径2 cm和5 cm），已使用蒙特卡罗模拟（MC）、笔形束算法（PB）和坍缩圆锥算法（CC）计算了纵向剂量分布。通过一种经过验证的卷积方法纳入了呼吸运动。在静态情况下，相对于MC，PB显著高估了剂量，而CC给出了相对准确的估计。在使用MC进行剂量计算时纳入了四种不同的呼吸运动模式。相对于用PB计算的静态剂量分布，纵向剂量分布“变窄”了多达20 mm（在约90%剂量水平处）。

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肺部肿瘤立体定向体部放疗中的剂量分布：两种不同治疗计划算法与包含呼吸运动的蒙特卡罗模拟之间的比较

Dose distributions in SBRT of lung tumors: Comparison between two different treatment planning algorithms and Monte-Carlo simulation including breathing motions.

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