一种提高伽玛刀放射外科几何精度的简单而有效的方法：在多个脑转移瘤中的应用。

A simple and efficient methodology to improve geometric accuracy in gamma knife radiation surgery: implementation in multiple brain metastases.

机构信息

Medical Physics Laboratory, Medical School, University of Athens, Greece; Gamma Knife Department, Hygeia Hospital, Athens, Greece.

Medical Physics Laboratory, Medical School, University of Athens, Greece.

出版信息

Int J Radiat Oncol Biol Phys. 2014 Dec 1;90(5):1234-41. doi: 10.1016/j.ijrobp.2014.08.349. Epub 2014 Oct 13.

DOI:10.1016/j.ijrobp.2014.08.349

PMID:25442348

Abstract

PURPOSE

To propose, verify, and implement a simple and efficient methodology for the improvement of total geometric accuracy in multiple brain metastases gamma knife (GK) radiation surgery.

METHODS AND MATERIALS

The proposed methodology exploits the directional dependence of magnetic resonance imaging (MRI)-related spatial distortions stemming from background field inhomogeneities, also known as sequence-dependent distortions, with respect to the read-gradient polarity during MRI acquisition. First, an extra MRI pulse sequence is acquired with the same imaging parameters as those used for routine patient imaging, aside from a reversal in the read-gradient polarity. Then, "average" image data are compounded from data acquired from the 2 MRI sequences and are used for treatment planning purposes. The method was applied and verified in a polymer gel phantom irradiated with multiple shots in an extended region of the GK stereotactic space. Its clinical impact in dose delivery accuracy was assessed in 15 patients with a total of 96 relatively small (<2 cm) metastases treated with GK radiation surgery.

RESULTS

Phantom study results showed that use of average MR images eliminates the effect of sequence-dependent distortions, leading to a total spatial uncertainty of less than 0.3 mm, attributed mainly to gradient nonlinearities. In brain metastases patients, non-eliminated sequence-dependent distortions lead to target localization uncertainties of up to 1.3 mm (mean: 0.51 ± 0.37 mm) with respect to the corresponding target locations in the "average" MRI series. Due to these uncertainties, a considerable underdosage (5%-32% of the prescription dose) was found in 33% of the studied targets.

CONCLUSIONS

The proposed methodology is simple and straightforward in its implementation. Regarding multiple brain metastases applications, the suggested approach may substantially improve total GK dose delivery accuracy in smaller, outlying targets.

摘要

目的

提出、验证和实施一种简单有效的方法，以提高多发性脑转移伽玛刀（GK）放射外科的总体几何精度。

方法和材料

所提出的方法利用了磁共振成像（MRI）相关空间变形的方向依赖性，这些变形源自背景场非均匀性，也称为序列相关变形，相对于 MRI 采集过程中的读取梯度极性。首先，使用与常规患者成像相同的成像参数获取附加的 MRI 脉冲序列，除了读取梯度极性反转。然后，从两个 MRI 序列中获取的数据进行“平均”图像数据复合，并用于治疗计划目的。该方法已应用于聚合物凝胶体模中，在 GK 立体定向空间的扩展区域中用多束照射。在 15 名共 96 个相对较小（<2cm）转移灶的患者中，评估了其在剂量输送精度方面的临床影响，这些患者均接受了 GK 放射外科治疗。

结果

体模研究结果表明，使用平均 MRI 图像消除了序列相关变形的影响，导致总空间不确定性小于 0.3mm，主要归因于梯度非线性。在脑转移瘤患者中，未消除的序列相关变形导致目标定位不确定性高达 1.3mm（平均值：0.51±0.37mm），相对于“平均”MRI 系列中的相应目标位置。由于这些不确定性，在 33%的研究目标中发现了相当大的剂量不足（处方剂量的 5%-32%）。

结论

所提出的方法在实施方面简单直接。对于多发性脑转移应用，所提出的方法可以显著提高较小、偏远靶区的 GK 总剂量输送精度。

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一种提高伽玛刀放射外科几何精度的简单而有效的方法：在多个脑转移瘤中的应用。

A simple and efficient methodology to improve geometric accuracy in gamma knife radiation surgery: implementation in multiple brain metastases.

机构信息

出版信息

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSIONS

目的

方法和材料

结果

结论

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