磁共振引导直线加速器上肝 SBRT 的肿瘤追踪。

Tumor Trailing for Liver SBRT on the MR-Linac.

机构信息

Department of Radiation Oncology, The Netherlands Cancer Institute, Amsterdam, the Netherlands.

出版信息

Int J Radiat Oncol Biol Phys. 2019 Feb 1;103(2):468-478. doi: 10.1016/j.ijrobp.2018.09.011. Epub 2018 Sep 20.

DOI:10.1016/j.ijrobp.2018.09.011

PMID:30243573

Abstract

PURPOSE

Tumor trailing is a treatment delivery technique that continuously adjusts the beam aperture according to the last available time-averaged position of the target. This study investigates whether tumor trailing on a magnetic resonance (MR) linear accelerator (linac) can improve target coverage in liver stereotactic body radiation therapy (SBRT) in the case of baseline motion.

METHODS AND MATERIALS

For 17 patients with oligometastatic liver disease, midposition SBRT treatment plans (3 × 20 Gy, 11-beam intensity modulated radiotherapy) were created for the Elekta Unity MR-Linac. Treatment was simulated using an in-house-developed delivery emulator. Respiratory motion was modelled as the superposition of periodic motion (patient-specific amplitude, 4-second period) and the following baseline motion scenarios: a continuous linear drift (0.5 mm/min), (2) a single shift halfway through treatment (10 mm), (3) a periodic drift (amplitude: 5 mm, period: 5 minutes), or (4) MR imaging-measured baseline drifts. Delivered dose was calculated under full consideration of the patient and machine motion interplay. In addition, trailing was experimentally validated on the MR-Linac using a programmable motion phantom.

RESULTS

The average simulated delivery and beam-on times were 15.9 and 8.7 minutes, respectively. An imaging frequency of ≥1 Hz was deemed necessary for trailing. Trailing increased the median gross tumor volume D98% dose by 1.9 Gy (linear drift), 1.2 Gy (single shift), 0.7 Gy (periodic drift), and 0.5 to 1.5 Gy (measured drifts) per fraction, compared with a conventional delivery. In the phantom experiments, the 3%/2 mm local gamma pass rate nearly doubled to 98% when using trailing.

CONCLUSION

Tumor trailing on the MR-Linac restores target dose in liver SBRT in the case of baseline motion for the presented patient cohort.

摘要

目的

肿瘤追踪是一种治疗输送技术，根据目标的最后一个可用时间平均位置连续调整射束孔径。本研究调查了在基线运动的情况下，磁共振（MR）直线加速器（linac）上的肿瘤追踪是否可以提高肝脏立体定向体部放射治疗（SBRT）中的靶区覆盖。

方法和材料

对于 17 名患有寡转移肝脏疾病的患者，为 Elekta Unity MR-Linac 创建了中置 SBRT 治疗计划（3×20Gy，11 束强度调制放疗）。使用内部开发的输送仿真器模拟治疗。呼吸运动被建模为周期性运动（患者特异性振幅，4 秒周期）和以下基线运动场景的叠加：（1）连续线性漂移（0.5mm/min），（2）治疗中途单次移位（10mm），（3）周期性漂移（振幅：5mm，周期：5 分钟）或（4）MR 成像测量的基线漂移。在充分考虑患者和机器运动相互作用的情况下计算了输送剂量。此外，还在 MR-Linac 上使用可编程运动体模对追踪进行了实验验证。

结果

平均模拟输送和射束开启时间分别为 15.9 分钟和 8.7 分钟。需要≥1Hz 的成像频率才能进行追踪。与常规输送相比，跟踪每分次增加了 1.9Gy（线性漂移）、1.2Gy（单次移位）、0.7Gy（周期性漂移）和 0.5 至 1.5Gy（测量漂移）的中位数总肿瘤体积 D98%剂量。在体模实验中，使用跟踪时 3%/2mm 局部伽马通过率几乎翻了一番，达到 98%。

结论

对于所呈现的患者队列，在基线运动的情况下，MR-Linac 上的肿瘤追踪可恢复肝脏 SBRT 中的靶区剂量。

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磁共振引导直线加速器上肝 SBRT 的肿瘤追踪。

Tumor Trailing for Liver SBRT on the MR-Linac.

机构信息

出版信息

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSION

目的

方法和材料

结果

结论

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