Critical Evaluation of Secondary Cancer Risk After Breast Radiation Therapy with Hybrid Radiotherapy Techniques.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Quanbin Zhang, Yu Zeng, Yingying Peng, Hui Yu, Shuxu Zhang, Shuyu Wu
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引用次数: 3

Abstract

Background: As hybrid radiotherapy technique can effectively balance dose distribution between targets and organs, it is necessary to evaluate the late effects related to radiotherapy. The aim of the study was to calculate and provide individual estimates of the risks for hybrid radiotherapy techniques in breast cancer patients.

Methods: Whole-breast irradiation was performed in 43 breast cancer patients by using 3D conformal, intensity-modulated and hybrid techniques. The excess absolute risk (EAR), lifetime attributable risk (LAR) and normal tissue complication probability (NTCP) were calculated to estimate risks in organs. The risk variability in contralateral breast was assessed by using the patient's anatomic parameters.

Results: Compared with IMRT and FinF, hybrid techniques achieved satisfactory dose distribution and comparable or lower estimated risks in organs. The LAR was estimated to be up to 0.549% for contralateral lung with advantages of tangential techniques over H-VMAT. For ipsilateral lung, the LAR was estimated to be up to 9.021%, but lower in H-VMAT and FinF without significant difference. The risk of thyroid was negligible in overall estimation. For contralateral breast, the LAR was estimated to be up to 0.865% with advantages of MH-IMRT and H-VMAT over TF-IMRT. The fraction of individual variability could be explained by using anatomic parameters of minimum breast distance (MBD) and minimum target concave angle (θMTCA). NTCP for all analyzed endpoints was significantly higher in TF-IMRT relative to FinF and hybrid techniques, while TH-IMRT and H-VMAT were presenting lower toxicity risk. However, MH-IMRT presented a higher probability of toxicity in lung. For most cases, H-VMAT demonstrated a benefit for contralateral breast, heart and lung sparing.

Conclusion: The optimal treatment should be performed individually according to anatomic parameters and balances between EAR and NTCP. Individual assessment may assist in achieving optimal balances between targets and organs as well as supporting clinical decision-making processes.

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混合放疗技术对乳腺癌放疗后继发癌风险的关键评价。
背景:由于混合放疗技术能有效平衡靶与器官之间的剂量分布,因此有必要对放疗相关的后期效应进行评价。该研究的目的是计算并提供混合放疗技术对乳腺癌患者风险的个人估计。方法:采用三维适形、调强和混合技术对43例乳腺癌患者进行全乳照射。计算超额绝对风险(EAR)、终生归因风险(LAR)和正常组织并发症概率(NTCP)来估计器官的风险。对侧乳房的风险变异性通过使用患者的解剖参数进行评估。结果:与IMRT和FinF相比,混合技术获得了令人满意的剂量分布和相当或更低的器官估计风险。对侧肺的LAR估计高达0.549%,切向技术优于H-VMAT。对于同侧肺,估计LAR可达9.021%,但H-VMAT和FinF较低,无显著差异。甲状腺的风险在总体估计中可以忽略不计。对于对侧乳房,估计LAR高达0.865%,MH-IMRT和H-VMAT优于TF-IMRT。个体变异的比例可以用最小乳房距离(MBD)和最小靶凹角(θMTCA)的解剖参数来解释。与FinF和混合技术相比,TF-IMRT中所有分析终点的NTCP均显著高于FinF和混合技术,而TH-IMRT和H-VMAT的毒性风险较低。然而,MH-IMRT表现出更高的肺毒性可能性。对于大多数病例,H-VMAT显示了对侧乳房、心脏和肺保留的益处。结论:应根据EAR和NTCP的解剖参数和平衡情况分别进行最佳治疗。个体评估可能有助于实现目标和器官之间的最佳平衡,以及支持临床决策过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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