磁共振直线加速器放射治疗——射束角度选择问题

MR-Linac Radiotherapy - The Beam Angle Selection Problem.

作者信息

Bijman Rik, Rossi Linda, Janssen Tomas, de Ruiter Peter, van Triest Baukelien, Breedveld Sebastiaan, Sonke Jan-Jakob, Heijmen Ben

机构信息

Department of Radiotherapy, Erasmus MC Cancer Institute, Rotterdam, Netherlands.

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

出版信息

Front Oncol. 2021 Oct 1;11:717681. doi: 10.3389/fonc.2021.717681. eCollection 2021.

DOI:10.3389/fonc.2021.717681

PMID:34660281

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8518312/

Abstract

BACKGROUND

With the large-scale introduction of volumetric modulated arc therapy (VMAT), selection of optimal beam angles for coplanar static-beam IMRT has increasingly become obsolete. Due to unavailability of VMAT in current MR-linacs, the problem has re-gained importance. An application for automated IMRT treatment planning with integrated, patient-specific computer-optimization of beam angles (BAO) was used to systematically investigate computer-aided generation of beam angle class solutions (CS) for replacement of computationally expensive patient-specific BAO. Rectal cancer was used as a model case.

MATERIALS AND METHODS

23 patients treated at a Unity MR-linac were included. BAO plans (x=7-12 beams) were generated for all patients. Analyses of BAO plans resulted in CS class solutions. BAO plans, CS plans, and plans with equi-angular setups (EQUI, x=9-56) were mutually compared.

RESULTS

For x>7, plan quality for CS and BAO was highly similar, while both were superior to EQUI. E.g. with CS, bowel/bladder D reduced by 22% [11%, 38%] compared to EQUI (p<0.001). For equal plan quality, the number of EQUI beams had to be doubled compared to BAO and CS.

CONCLUSIONS

Computer-generated beam angle CS could replace individualized BAO without loss in plan quality, while reducing planning complexity and calculation times, and resulting in a simpler clinical workflow. CS and BAO largely outperformed equi-angular treatment. With the developed CS, time consuming beam angle re-optimization in daily adaptive MR-linac treatment could be avoided. Further systematic research on computerized development of beam angle class solutions for MR-linac treatment planning is warranted.

摘要

背景

随着容积调强弧形放疗（VMAT）的大规模应用，共面静态射束调强放疗（IMRT）最佳射束角度的选择已越来越过时。由于当前磁共振直线加速器中无法使用VMAT，这个问题再次变得重要起来。一种用于自动IMRT治疗计划的应用程序，结合针对患者的计算机优化射束角度（BAO），被用于系统地研究计算机辅助生成射束角度类别解决方案（CS），以替代计算成本高昂的针对患者的BAO。以直肠癌作为模型病例。

材料与方法

纳入了在一台Unity磁共振直线加速器接受治疗的23例患者。为所有患者生成了BAO计划（x = 7 - 12束射束）。对BAO计划的分析得出了CS类别解决方案。将BAO计划、CS计划以及等角设置计划（EQUI，x = 9 - 56）相互比较。

结果

当x > 7时，CS和BAO的计划质量高度相似，而两者均优于EQUI。例如，与EQUI相比，采用CS时，肠/膀胱剂量降低了22%[11%，38%]（p < 0.001）。对于相同的计划质量，EQUI射束的数量与BAO和CS相比必须翻倍。

结论

计算机生成的射束角度CS可以替代个体化的BAO，而不会降低计划质量，同时降低计划复杂性和计算时间，并带来更简单的临床工作流程。CS和BAO在很大程度上优于等角治疗。利用所开发的CS，可以避免在日常自适应磁共振直线加速器治疗中耗时的射束角度重新优化。有必要对磁共振直线加速器治疗计划的射束角度类别解决方案的计算机化开发进行进一步的系统研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3de3/8518312/3c7a5faf2dd9/fonc-11-717681-g001.jpg

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磁共振直线加速器放射治疗——射束角度选择问题

MR-Linac Radiotherapy - The Beam Angle Selection Problem.

作者信息

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

背景

材料与方法

结果

结论

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