机器人放射外科中处方等剂量线和准直器选择对剂量均匀性和计划质量的影响。

Impact of prescription isodose level and collimator selection on dose homogeneity and plan quality in robotic radiosurgery.

机构信息

Faculty of Medicine and University Hospital Cologne, Department of Stereotaxy and Functional Neurosurgery, University of Cologne, Kerpener Straße 62, 50937, Cologne, Germany.

Faculty of Medicine and University Hospital Cologne, Institute of Radiation Oncology, University of Cologne, Cologne, Germany.

出版信息

Strahlenther Onkol. 2022 May;198(5):484-496. doi: 10.1007/s00066-021-01872-4. Epub 2021 Dec 9.

DOI:10.1007/s00066-021-01872-4

PMID:34888732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9038902/

Abstract

PURPOSE

In stereotactic radiosurgery (SRS), prescription isodoses and resulting dose homogeneities vary widely across different platforms and clinical entities. Our goal was to investigate the physical limitations of generating dose distributions with an intended level of homogeneity in robotic SRS.

METHODS

Treatment plans for non-isocentric irradiation of 4 spherical phantom targets (volume 0.27-7.70 ml) and 4 clinical targets (volume 0.50-5.70 ml) were calculated using Sequential (phantom) or VOLO (clinical) optimizers (Accuray, Sunnyvale, CA, USA). Dose conformity, volume of 12 Gy isodose (V12Gy) as a measure for dose gradient, and treatment time were recorded for different prescribed isodose levels (PILs) and collimator settings. In addition, isocentric irradiation of phantom targets was examined, with dose homogeneity modified by using different collimator sizes.

RESULTS

Dose conformity was generally high (nCI ≤ 1.25) and varied little with PIL. For all targets and collimator sets, V12Gy was highest for PIL ≥ 80% and lowest for PIL ≤ 65%. The impact of PIL on V12Gy was highest for isocentric irradiation and lowest for clinical targets (VOLO optimization). The variability of V12Gy as a function of collimator selection was significantly higher than that of PIL. V12Gy and treatment time were negatively correlated. Plans utilizing a single collimator with a diameter in the range of 70-80% of the target diameter were fastest, but showed the strongest dependence on PIL.

CONCLUSION

Inhomogeneous dose distributions with PIL ≤ 70% can be used to minimize dose to normal tissue. PIL ≥ 90% is associated with a marked and significant increase in off-target dose exposure. Careful selection of collimators during planning is even more important.

摘要

目的

在立体定向放射外科（SRS）中，不同平台和临床实体之间的处方等剂量线和所得剂量均匀性差异很大。我们的目标是研究在机器人 SRS 中产生具有预期均匀性水平的剂量分布的物理限制。

方法

使用 Sequential（体模）或 VOLO（临床）优化器（Accuray，加利福尼亚州森尼韦尔）为 4 个球形体模靶（体积 0.27-7.70ml）和 4 个临床靶（体积 0.50-5.70ml）计算非共面照射的治疗计划。记录了不同处方等剂量线（PIL）和准直器设置下的剂量一致性、12Gy 等剂量体积（V12Gy）作为剂量梯度的度量以及治疗时间。此外，还检查了体模靶的共面照射，通过使用不同的准直器尺寸来改变剂量均匀性。

结果

剂量一致性通常很高（nCI ≤ 1.25），并且随 PIL 变化很小。对于所有靶区和准直器组，PIL ≥ 80%时 V12Gy 最高，PIL ≤ 65%时 V12Gy 最低。PIL 对 V12Gy 的影响在共面照射时最高，在临床靶区（VOLO 优化）时最低。V12Gy 随准直器选择的变化比 PIL 的变化大得多。V12Gy 和治疗时间呈负相关。使用直径为靶区直径的 70-80%范围内的单个准直器的计划最快，但与 PIL 的依赖性最强。

结论

PIL ≤ 70%的不均匀剂量分布可用于最大限度地减少正常组织的剂量。PIL ≥ 90%与靶外剂量暴露的显著增加有关。在规划期间仔细选择准直器更为重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f197/9038902/75100e0f7e1e/66_2021_1872_Fig1_HTML.jpg

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机器人放射外科中处方等剂量线和准直器选择对剂量均匀性和计划质量的影响。

Impact of prescription isodose level and collimator selection on dose homogeneity and plan quality in robotic radiosurgery.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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