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减少范围不确定性在脑癌、头颈癌和乳腺癌患者质子治疗稳健优化中的益处。

Benefit of range uncertainty reduction in robust optimisation for proton therapy of brain, head-and-neck and breast cancer patients.

作者信息

Tarp Ivanka Sojat, Taasti Vicki Trier, Jensen Maria Fuglsang, Vestergaard Anne, Jensen Kenneth

机构信息

Danish Centre for Particle Therapy, Aarhus University Hospital, Aarhus, Denmark.

出版信息

Phys Imaging Radiat Oncol. 2024 Aug 21;31:100632. doi: 10.1016/j.phro.2024.100632. eCollection 2024 Jul.

DOI:10.1016/j.phro.2024.100632
PMID:39257572
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11386293/
Abstract

BACKGROUND AND PURPOSE

The primary cause of range uncertainty in proton therapy is inaccuracy in estimating the stopping-power ratio from computed tomography. This study examined the impact on dose-volume metrics by reducing range uncertainty in robust optimisation for a diverse patient cohort and determined the level of range uncertainty that resulted in a relevant reduction in doses to organs-at-risk (OARs).

MATERIALS AND METHODS

The effect of reducing range uncertainty on OAR doses was evaluated by robustly optimising six proton plans with varying range uncertainty levels (ranging from 3.5% in the original plan to 1.0%), keeping setup uncertainty fixed. All plans used the initial clinical treatment plan's beam directions and optimisation objectives and were optimised until a clinically acceptable plan was achieved across all setup and range scenarios. The effect of reduced range uncertainty on dose-volume metrics for OARs near the target was evaluated. This study included 30 brain cancer patients, as well as five head-and-neck and five breast cancer patients, investigating the relevance of reducing range uncertainty when different setup uncertainties were used.

RESULTS

Lowering range uncertainty slightly reduced the nominal dose to surrounding tissue. For body volume receiving 80% of the prescribed dose, reducing range uncertainty from 3.5% to 2.0% resulted in a median decrease of 4 cm for the brain, 17 cm for head-and-neck, and 27 cm for breast cancer patients.

CONCLUSIONS

Reducing range uncertainty in robust optimisation showed a reduction in dose to OARs. The clinical relevance depends on the affected organs and the clinical dose constraints.

摘要

背景与目的

质子治疗中射程不确定性的主要原因是从计算机断层扫描估计阻止本领比时的不准确。本研究通过在针对不同患者队列的稳健优化中降低射程不确定性,研究其对剂量体积指标的影响,并确定导致危及器官(OARs)剂量有相关降低的射程不确定性水平。

材料与方法

通过稳健优化六个具有不同射程不确定性水平(从原始计划中的3.5%到1.0%)的质子计划来评估降低射程不确定性对OARs剂量的影响,同时保持设置不确定性固定。所有计划均采用初始临床治疗计划的射束方向和优化目标,并进行优化,直到在所有设置和射程情况下都获得临床可接受的计划。评估了降低射程不确定性对靶区附近OARs剂量体积指标的影响。本研究纳入了30例脑癌患者,以及5例头颈癌患者和5例乳腺癌患者,研究了在使用不同设置不确定性时降低射程不确定性的相关性。

结果

降低射程不确定性会使周围组织的标称剂量略有降低。对于接受80%处方剂量的身体体积,将射程不确定性从3.5%降低到2.0%,脑癌患者的中位数减少4 cm,头颈癌患者减少17 cm,乳腺癌患者减少27 cm。

结论

在稳健优化中降低射程不确定性可使OARs的剂量降低。临床相关性取决于受影响的器官和临床剂量限制。

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Tissue-specific range uncertainty estimation in proton therapy.
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