应用遗传算法对单中心多转移灶立体定向放射外科治疗中计划靶区进行优化——采用 Brainlab ElementsTM。

Use of genetic algorithm for PTV optimization in single isocenter multiple metastases radiosurgery treatments with Brainlab Elements™.

机构信息

Instituto Zunino, Obispo Oro 423, 5000 Córdoba, Argentina.

出版信息

Phys Med. 2021 Jun;86:82-90. doi: 10.1016/j.ejmp.2021.05.031. Epub 2021 May 29.

DOI:10.1016/j.ejmp.2021.05.031

PMID:34062337

Abstract

PURPOSE

To optimize PTV margins for single isocenter multiple metastases stereotactic radiosurgery through a genetic algorithm (GA) that determines the maximum effective displacement of each target (GTV) due to rotations.

METHOD

10 plans were optimized. The plans were created with Elements Multiple Mets™ (Brainlab AG, Munchen, Germany) from a predefined template. The mean number of metastases per plan was 5 ± 2 [3,9] and the mean volume of GTV was 1.1 ± 1.3 cc [0.02, 5.1]. PTV margin criterion was based on GTV-isocenter distance and target dimensions. The effective displacement to perform specific rotational combination (roll, pitch, yaw) was optimized by GA. The original plans were re-calculated using the PTV optimized margin and new dosimetric variations were obtained. The D, D, Paddick conformity index (PCI), gradient index (GI) and dose variations in healthy brain were studied.

RESULTS

Regarding targets located shorter than 50 mm from the isocenter, the maximum calculated displacement was 2.5 mm. The differences between both PTV margin criteria were statistically significant for D (p = 0.0163), D (p = 0.0439), PCI (p = 0.0242), GI (p = 0.0160) and for healthy brain V (p = 0.0218) and V (p = 0.0264).

CONCLUSION

The GA allows to determine an optimized PTV margin based on the maximum displacement. Optimized PTV margins reduce the detriment of dosimetric parameters. Greater PTV margins are associated with an increase in healthy brain volume.

摘要

目的

通过遗传算法（GA）优化单等中心多转移立体定向放射外科的 PTV 边界，该算法确定由于旋转导致每个靶区（GTV）的最大有效位移。

方法

优化了 10 个计划。这些计划是使用 Elements Multiple Mets ™（德国慕尼黑 Brainlab AG）根据预定义模板创建的。每个计划的平均转移数量为 5±2 [3,9]，GTV 的平均体积为 1.1±1.3cc [0.02,5.1]。PTV 边界准则基于 GTV-等中心距离和靶区尺寸。GA 优化了执行特定旋转组合（滚动、俯仰、偏航）的有效位移。使用优化的 PTV 边界重新计算原始计划，并获得新的剂量学变化。研究了 D、D、Paddick 适形指数（PCI）、梯度指数（GI）和健康大脑中的剂量变化。

结果

对于距离等中心小于 50mm 的靶区，计算出的最大位移为 2.5mm。两种 PTV 边界准则的差异在 D（p=0.0163）、D（p=0.0439）、PCI（p=0.0242）、GI（p=0.0160）和健康大脑的 V（p=0.0218）和 V（p=0.0264）方面具有统计学意义。

结论

GA 允许根据最大位移确定优化的 PTV 边界。优化的 PTV 边界可降低剂量学参数的损害。更大的 PTV 边界与健康大脑体积的增加相关。

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应用遗传算法对单中心多转移灶立体定向放射外科治疗中计划靶区进行优化——采用 Brainlab ElementsTM。

Use of genetic algorithm for PTV optimization in single isocenter multiple metastases radiosurgery treatments with Brainlab Elements™.

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSION

目的

方法

结果

结论

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