金属乳腺扩张器中外部位变对三种外照射治疗技术的稳健性。

Robustness of three external beam treatment techniques against inter-fractional positional variations of the metal port in breast tissue expanders.

机构信息

Department of Physics, Carleton University, Ottawa, Ontario, Canada.

The Ottawa Hospital Cancer Centre, Ottawa, Ontario, Canada.

出版信息

J Appl Clin Med Phys. 2022 Jan;23(1):e13474. doi: 10.1002/acm2.13474. Epub 2021 Nov 22.

DOI:10.1002/acm2.13474

PMID:34807509

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8803286/

Abstract

INTRODUCTION

Temporary breast tissue expanders contain a metal port that varies in position throughout the course of radiation treatments. The purpose of this study was to quantify the robustness of the three most common external beam treatment techniques (tangential three-dimensional conformal radiation therapy [3DCRT], volumetric modulated arc therapy [VMAT], and helical tomotherapy) against our measured inter-fractional positional variations of the port.

METHODS

For eight breast cases, a clinical plan was created for each of the three techniques. The dosimetric effect of our previously measured inter-fractional port errors was evaluated for two classes of error: internal port errors (IPEs) and patient registration errors (PREs). For both classes of error, daily variable and systematic errors were modeled, and their cumulative effects were compared against the originally planned doses.

RESULTS

For systematic IPE, the 1%-99% range in point dose differences inside a 5-mm target abutting the implant was the highest for tangential 3DCRT, and it was within 6% and 9% when calculated with Monte Carlo and collapsed cone calculation engines, respectively. Daily variable PRE resulted in mean changes of -3.0% and -3.5% to V of the target for VMAT and tomotherapy, respectively. For nearby organs, daily variable PRE resulted in changes to V of the ipsilateral lung of less than 2% in all three techniques, while V of the heart increased by as much as 6% in VMAT and 10% in tomotherapy.

CONCLUSIONS

When IPEs were modeled, dose variability was the largest in tangential 3DCRT, leading to areas of underdosage in the shadow of the port. When PREs were modeled, the target coverage and nearby organs were affected the most in VMAT and helical tomotherapy. In reality, port positional errors result from a combination of IPE and PRE, suggesting that VMAT and tomotherapy are more robust when patient registration errors are minimized, despite the presence of IPE.

摘要

简介

临时乳房组织扩张器包含一个金属端口，在放射治疗过程中其位置会发生变化。本研究的目的是量化三种最常见的外部束治疗技术（切线三维适形放射治疗[3DCRT]、容积调制弧形治疗[VMAT]和螺旋断层治疗）对我们测量的端口分次间位置变化的稳健性。

方法

对于 8 个乳房病例，为三种技术中的每一种创建了一个临床计划。评估了我们之前测量的端口分次间误差的两种误差类型（内部端口误差[IPE]和患者注册误差[PRE]）对剂量的影响。对于这两种误差类型，对每天的变量和系统误差进行建模，并将其累积效应与原计划剂量进行比较。

结果

对于系统 IPE，在紧邻植入物的 5mm 靶区内部点剂量差异的 1%-99%范围内，切线 3DCRT 最高，分别使用蒙特卡罗和折叠圆锥计算引擎计算时，其值分别为 6%和 9%。每日变量 PRE 导致 VMAT 和螺旋断层治疗的靶区 V 分别平均变化-3.0%和-3.5%。对于邻近器官，在所有三种技术中，每日变量 PRE 导致对侧肺 V 的变化都小于 2%，而 VMAT 和螺旋断层治疗中心脏 V 的增加高达 6%和 10%。

结论

当模拟 IPE 时，在切线 3DCRT 中剂量变化最大，导致端口阴影下剂量不足的区域。当模拟 PRE 时，VMAT 和螺旋断层治疗中靶区覆盖和邻近器官受到的影响最大。在现实中，端口位置误差是 IPE 和 PRE 的组合导致的，这表明当最小化患者注册误差时，VMAT 和螺旋断层治疗更稳健，尽管存在 IPE。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/92ec/8803286/e11e9738a112/ACM2-23-e13474-g006.jpg

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本文引用的文献

Magnitude and dosimetric impact of inter-fractional positional variations of the metal port of tissue expanders in postmastectomy patients treated with radiation.

Phys Imaging Radiat Oncol. 2020 Oct 13;16:37-42. doi: 10.1016/j.phro.2020.09.012. eCollection 2020 Oct.

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金属乳腺扩张器中外部位变对三种外照射治疗技术的稳健性。

Robustness of three external beam treatment techniques against inter-fractional positional variations of the metal port in breast tissue expanders.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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