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Radiother Oncol. 2016 Oct;121(1):32-38. doi: 10.1016/j.radonc.2016.08.019. Epub 2016 Sep 16.
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Radiotherapy Planning Using an Improved Search Strategy in Particle Swarm Optimization.基于粒子群优化中改进搜索策略的放射治疗计划
IEEE Trans Biomed Eng. 2017 May;64(5):980-989. doi: 10.1109/TBME.2016.2585114. Epub 2016 Jun 27.
3
Is IMRT Superior or Inferior to 3DCRT in Radiotherapy for NSCLC? A Meta-Analysis.调强放射治疗在非小细胞肺癌放疗中优于还是劣于三维适形放射治疗?一项荟萃分析。
PLoS One. 2016 Apr 21;11(4):e0151988. doi: 10.1371/journal.pone.0151988. eCollection 2016.
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Stereotactic radiotherapy for early lung cancer: Evidence-based approach and future directions.早期肺癌的立体定向放射治疗:循证方法与未来方向。
Rep Pract Oncol Radiother. 2015 Nov-Dec;20(6):403-10. doi: 10.1016/j.rpor.2014.11.007. Epub 2014 Dec 12.
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Respiratory gating based on internal electromagnetic motion monitoring during stereotactic liver radiation therapy: First results.立体定向肝脏放射治疗期间基于内部电磁运动监测的呼吸门控:初步结果。
Acta Oncol. 2015;54(9):1445-52. doi: 10.3109/0284186X.2015.1062134. Epub 2015 Jul 22.
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Stereotactic body radiotherapy for early-stage non-small cell lung cancer: clinical outcomes from a National Patient Registry.早期非小细胞肺癌的立体定向体部放射治疗:来自国家患者登记处的临床结果
J Radiat Oncol. 2015;4(1):55-63. doi: 10.1007/s13566-014-0177-0. Epub 2015 Jan 31.
7
Improving radiotherapy planning, delivery accuracy, and normal tissue sparing using cutting edge technologies.使用前沿技术改善放射治疗计划、照射精度并减少对正常组织的损伤。
J Thorac Dis. 2014 Apr;6(4):303-18. doi: 10.3978/j.issn.2072-1439.2013.11.10.
8
Use of dMLC for implementation of dynamic respiratory-gated radiation therapy.使用动态多叶准直器实现动态呼吸门控放射治疗。
Med Phys. 2013 Oct;40(10):101708. doi: 10.1118/1.4820534.
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Clinical practice patterns of lung stereotactic body radiation therapy in the United States: a secondary analysis.美国肺立体定向体部放射治疗的临床实践模式:二次分析。
Am J Clin Oncol. 2013 Jun;36(3):269-72. doi: 10.1097/COC.0b013e3182467db3.
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A survey of stereotactic body radiotherapy use in the United States.美国立体定向体部放疗使用情况调查。
Cancer. 2011 Oct 1;117(19):4566-72. doi: 10.1002/cncr.26067. Epub 2011 Mar 15.

肺部适形放射治疗中的逆向计划呼吸期门控

Inversed-Planned Respiratory Phase Gating in Lung Conformal Radiation Therapy.

作者信息

Modiri Arezoo, Sabouri Pouya, Gu Xuejun, Timmerman Robert, Sawant Amit

机构信息

Department of Radiation Oncology, School of Medicine, University of Maryland, Baltimore, Maryland.

Department of Radiation Oncology, School of Medicine, University of Maryland, Baltimore, Maryland.

出版信息

Int J Radiat Oncol Biol Phys. 2017 Oct 1;99(2):317-324. doi: 10.1016/j.ijrobp.2017.05.039. Epub 2017 Jun 1.

DOI:10.1016/j.ijrobp.2017.05.039
PMID:28871981
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5656395/
Abstract

PURPOSE

To assess whether the optimal gating window for each beam during lung radiation therapy with respiratory gating will be dependent on a variety of patient-specific factors, such as tumor size and location and the extent of relative tumor and organ motion.

METHODS AND MATERIALS

To create optimal gating treatment plans, we started from an optimized clinical plan, created a plan per respiratory phase using the same beam arrangements, and used an inverse planning optimization approach to determine the optimal gating window for each beam and optimal beam weights (ie, monitor units). Two pieces of information were used for optimization: (1) the state of the anatomy at each phase, extracted from 4-dimensional computed tomography scans; and (2) the time spent in each state, estimated from a 2-minute monitoring of the patient's breathing motion. We retrospectively studied 15 lung cancer patients clinically treated by hypofractionated conformal radiation therapy, for whom 45 to 60 Gy was administered over 3 to 15 fractions using 7 to 13 beams. Mean gross tumor volume and respiratory-induced tumor motion were 82.5 cm and 1.0 cm, respectively.

RESULTS

Although patients spent most of their respiratory cycle in end-exhalation (EE), our optimal gating plans used EE for only 34% of the beams. Using optimal gating, maximum and mean doses to the esophagus, heart, and spinal cord were reduced by an average of 15% to 26%, and the beam-on times were reduced by an average of 23% compared with equivalent single-phase EE gated plans (P<.034, paired 2-tailed t test).

CONCLUSIONS

We introduce a personalized respiratory-gating technique in which inverse planning optimization is used to determine patient- and beam-specific gating phases toward enhancing dosimetric quality of radiation therapy treatment plans.

摘要

目的

评估在呼吸门控的肺癌放射治疗过程中,每束射线的最佳门控窗口是否取决于多种患者特异性因素,如肿瘤大小和位置以及肿瘤与器官相对运动的程度。

方法和材料

为制定最佳门控治疗计划,我们从优化的临床计划开始,使用相同的射束排列为每个呼吸阶段创建一个计划,并采用逆向计划优化方法来确定每束射线的最佳门控窗口和最佳射束权重(即监测单位)。用于优化的有两条信息:(1)从四维计算机断层扫描中提取的每个阶段的解剖状态;(2)根据对患者呼吸运动2分钟的监测估计出的在每个状态下所花费的时间。我们回顾性研究了15例接受低分割适形放射治疗的肺癌患者,这些患者使用7至13束射线在3至15次分割中给予45至60 Gy的剂量。平均大体肿瘤体积和呼吸引起的肿瘤运动分别为82.5 cm³和1.0 cm。

结果

尽管患者在呼气末(EE)阶段花费了大部分呼吸周期,但我们的最佳门控计划仅对34%的射束使用了EE。与等效的单相EE门控计划相比,使用最佳门控时,食管、心脏和脊髓的最大剂量和平均剂量平均降低了15%至26%,射束开启时间平均减少了23%(P<0.034,配对双尾t检验)。

结论

我们引入了一种个性化呼吸门控技术,其中逆向计划优化用于确定针对患者和射束的门控阶段,以提高放射治疗计划的剂量学质量。