一种新型的呼吸运动补偿策略，结合了门控射束传输和平均目标位置概念——在小安全裕度和长工作周期之间的妥协。

A novel respiratory motion compensation strategy combining gated beam delivery and mean target position concept --a compromise between small safety margins and long duty cycles.

机构信息

Department of Radiation Oncology, University Hospital Wuerzburg, Josef-Schneider-Strasse 11, Wuerzburg, Germany.

出版信息

Radiother Oncol. 2011 Mar;98(3):317-22. doi: 10.1016/j.radonc.2011.01.008. Epub 2011 Feb 26.

DOI:10.1016/j.radonc.2011.01.008

PMID:21354640

Abstract

PURPOSE

To evaluate a novel respiratory motion compensation strategy combining gated beam delivery with the mean target position (MTP) concept for pulmonary stereotactic body radiotherapy (SBRT).

MATERIALS AND METHODS

Four motion compensation strategies were compared for 10 targets with motion amplitudes between 6mm and 31mm: the internal target volume concept (plan(ITV)); the MTP concept where safety margins were adapted based on 4D dose accumulation (plan(MTP)); gated beam delivery without margins for motion compensation (plan(gated)); a novel approach combining gating and the MTP concept (plan(gated&MTP)).

RESULTS

For 5/10 targets with an average motion amplitude of 9mm, the differences in the mean lung dose (MLD) between plan(gated) and plan(MTP) were <10%. For the other 5/10 targets with an average motion amplitude of 19mm, gating with duty cycles between 87.5% and 75% reduced the residual target motion to 12mm on average and 2mm safety margins were sufficient for dosimetric compensation of this residual motion in plan(gated&MTP). Despite significantly shorter duty cycles, plan(gated) reduced the MLD by <10% compared to plan(gated&MTP). The MLD was increased by 18% in plan(MTP) compared to that of plan(gated&MTP).

CONCLUSIONS

For pulmonary targets with motion amplitudes >10-15mm, the combination of gating and the MTP concept allowed small safety margins with simultaneous long duty cycles.

摘要

目的

评估一种新的呼吸运动补偿策略，该策略将门控束流输送与平均靶区位置（MTP）概念相结合，用于肺部立体定向体放射治疗（SBRT）。

材料与方法

比较了 4 种运动补偿策略，这些策略适用于运动幅度在 6mm 至 31mm 之间的 10 个靶区：内部靶区体积概念（计划 ITV）；基于 4D 剂量累积调整安全边界的 MTP 概念（计划 MTP）；无运动补偿边界的门控束流输送（计划 gated）；一种结合门控和 MTP 概念的新方法（计划 gated&MTP）。

结果

对于 5/10 个平均运动幅度为 9mm 的靶区，计划 gated 和计划 MTP 之间的平均肺剂量（MLD）差异<10%。对于另外 5/10 个平均运动幅度为 19mm 的靶区，门控的占空比在 87.5%和 75%之间，可将残余靶区运动平均降低至 12mm，2mm 的安全边界足以补偿计划 gated&MTP 中这种残余运动的剂量。尽管占空比显著缩短，但与计划 gated&MTP 相比，计划 gated 使 MLD 降低了<10%。与计划 gated&MTP 相比，计划 MTP 使 MLD 增加了 18%。

结论

对于运动幅度>10-15mm 的肺部靶区，门控和 MTP 概念的结合可以实现小的安全边界，同时具有长的占空比。

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一种新型的呼吸运动补偿策略，结合了门控射束传输和平均目标位置概念——在小安全裕度和长工作周期之间的妥协。

A novel respiratory motion compensation strategy combining gated beam delivery and mean target position concept --a compromise between small safety margins and long duty cycles.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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