各种铅笔束扫描质子系统在肝脏肿瘤治疗中运动缓解性能和稳健性的统计学比较。

A statistical comparison of motion mitigation performances and robustness of various pencil beam scanned proton systems for liver tumour treatments.

机构信息

Center for Proton Therapy, Paul Scherrer Institut, Switzerland; Varian Medical Systems - Particle Therapy GmbH, Troisdorf, Germany.

Varian Medical Systems - Particle Therapy GmbH, Troisdorf, Germany.

出版信息

Radiother Oncol. 2018 Jul;128(1):182-188. doi: 10.1016/j.radonc.2018.01.019. Epub 2018 Feb 16.

DOI:10.1016/j.radonc.2018.01.019

PMID:29459153

Abstract

BACKGROUND AND PURPOSE

Different scanned proton therapy systems provide different scanning scenarios, directly changing the temporal interference between sequential beam delivery and tumour motion. We aim here to quantify the interplay effects and compare motion mitigation performance among different PBS scanning systems.

MATERIALS AND METHODS

Using 6 4DCT(MRI) datasets of liver tumours with irregular motions greater than 10 mm, 4D treatments with single- and double-field plans, and assuming various doses and motion mitigation approaches, were simulated for 8 PBS scenarios including spot or raster scanning, layered or volumetric rescanning, gating, constant or varying beam current and cyclotron or synchrotron beam sources. The resulting 4D plans were compared using the homogeneity index (D5-D95 in CTV) and treatment time.

RESULTS

Independent of scanning scenario and field dose, neither gating nor rescanning alone could mitigate motion effects completely. Re-gating (rescanning with gating) however was found to be similarly effective for all scanning scenarios, most field doses and both rescan modes, with the difference being mainly in the treatment efficiency. The advantage of cyclotron-based systems together with layer-by-layer beam current variation was demonstrated by the nearly constant treatment time as a function of increased field dose.

CONCLUSION

Independently of PBS scanning dynamics, re-gating is sufficient to achieve acceptable 4D plan quality close to those of the static references.

摘要

背景与目的

不同的扫描质子治疗系统提供了不同的扫描场景，直接改变了连续束流传输和肿瘤运动之间的时间干扰。我们旨在量化这些相互作用效应，并比较不同 PBS 扫描系统的运动缓解性能。

材料与方法

使用 6 个具有大于 10mm 不规则运动的肝脏肿瘤的 4DCT（MRI）数据集，模拟了单场和双场计划的 4D 治疗，并假设了各种剂量和运动缓解方法，针对 8 种 PBS 场景进行了研究，包括点扫描或光栅扫描、分层或体积重扫描、门控、恒定或变化的束流以及回旋加速器或同步加速器束源。使用均匀性指数（CTV 中的 D5-D95）和治疗时间来比较生成的 4D 计划。

结果

无论扫描场景和场剂量如何，单独的门控或重扫描都不能完全缓解运动效应。然而，重新门控（带门控的重扫描）被发现对于所有扫描场景、大多数场剂量和两种重扫描模式都同样有效，区别主要在于治疗效率。基于回旋加速器的系统与逐层束流变化相结合的优势，通过增加场剂量的恒定治疗时间得到了证明。

结论

独立于 PBS 扫描动态，重新门控足以实现可接受的 4D 计划质量，接近静态参考的质量。

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各种铅笔束扫描质子系统在肝脏肿瘤治疗中运动缓解性能和稳健性的统计学比较。

A statistical comparison of motion mitigation performances and robustness of various pencil beam scanned proton systems for liver tumour treatments.

机构信息

出版信息

BACKGROUND AND PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景与目的

材料与方法

结果

结论

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