采用“ shot within shot ”技术对伽玛刀放射外科手术的处方等剂量线进行优化。

Optimization of the prescription isodose line for Gamma Knife radiosurgery using the shot within shot technique.

机构信息

Radiation Oncology / Biomedical Engineering, University of Miami, 1475 NW 12th Ave, Miami, FL, 33136, USA.

Radiation Oncology, University of Miami, 1475 NW 12th Ave, Miami, FL, 33136, USA.

出版信息

Radiat Oncol. 2017 Nov 25;12(1):187. doi: 10.1186/s13014-017-0919-4.

DOI:10.1186/s13014-017-0919-4

PMID:29178912

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5702131/

Abstract

BACKGROUND

This work explores how the choice of prescription isodose line (IDL) affects the dose gradient, target coverage, and treatment time for Gamma Knife radiosurgery when a smaller shot is encompassed within a larger shot at the same stereotactic coordinates (shot within shot technique).

METHODS

Beam profiles for the 4, 8, and 16 mm collimator settings were extracted from the treatment planning system and characterized using Gaussian fits. The characterized data were used to create over 10,000 shot within shot configurations by systematically changing collimator weighting and choice of prescription IDL. Each configuration was quantified in terms of the dose gradient, target coverage, and beam-on time. By analyzing these configurations, it was found that there are regions of overlap in target size where a higher prescription IDL provides equivalent dose fall-off to a plan prescribed at the 50% IDL. Furthermore, the data indicate that treatment times within these regions can be reduced by up to 40%. An optimization strategy was devised to realize these gains. The strategy was tested for seven patients treated for 1-4 brain metastases (20 lesions total).

RESULTS

For a single collimator setting, the gradient in the axial plane was steepest when prescribed to the 56-63% (4 mm), 62-70% (8 mm), and 77-84% (16 mm) IDL, respectively. Through utilization of the optimization technique, beam-on time was reduced by more than 15% in 16/20 lesions. The volume of normal brain receiving 12 Gy or above also decreased in many cases, and in only one instance increased by more than 0.5 cm.

CONCLUSIONS

This work demonstrates that IDL optimization using the shot within shot technique can reduce treatment times without degrading treatment plan quality.

摘要

背景

本研究旨在探讨当同一立体定向坐标内小射野包含大射野（即射野内套射野技术）时，处方等剂量线（IDL）的选择如何影响伽玛刀放射外科的剂量梯度、靶区覆盖和治疗时间。

方法

从治疗计划系统中提取 4、8 和 16mm 准直器设置的光束轮廓，并使用高斯拟合进行特征描述。利用所得到的特征数据，通过系统地改变准直器权重和处方 IDL 的选择，创建了超过 10000 种射野内套射野的配置。通过分析这些配置，发现靶区大小存在重叠区域，在这些区域内，较高的处方 IDL 可提供与 50% IDL 处方相当的剂量衰减。此外，数据表明，在这些区域内，治疗时间可缩短高达 40%。设计了一种优化策略来实现这些收益。该策略在 7 例接受 1-4 个脑转移瘤（共 20 个病灶）治疗的患者中进行了测试。

结果

对于单一准直器设置，在处方 IDL 分别为 56-63%（4mm）、62-70%（8mm）和 77-84%（16mm）时，轴平面的梯度最陡。通过利用优化技术，20 个病灶中有 16 个的治疗时间减少了 15%以上。在许多情况下，接受 12Gy 或以上剂量的正常脑组织体积也减少了，只有一个病例增加了超过 0.5cm。

结论

本研究表明，使用射野内套射野技术进行 IDL 优化可以在不降低治疗计划质量的情况下缩短治疗时间。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6cba/5702131/ca00388ad0c9/13014_2017_919_Fig1_HTML.jpg

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采用“ shot within shot ”技术对伽玛刀放射外科手术的处方等剂量线进行优化。

Optimization of the prescription isodose line for Gamma Knife radiosurgery using the shot within shot technique.

机构信息

Radiation Oncology / Biomedical Engineering, University of Miami, 1475 NW 12th Ave, Miami, FL, 33136, USA.

Radiation Oncology, University of Miami, 1475 NW 12th Ave, Miami, FL, 33136, USA.