通过温斯顿-卢茨法和光学测量确定的放射等中心及治疗床旋转中心的位置。

Positions of radiation isocenter and the couch rotation center established by Winston-Lutz and optical measurements.

作者信息

Jursinic Paul, Jordan Karl, Chen Chen

机构信息

West Michigan Cancer Center, 200 North Park St., Kalamazoo, MI 49007, USA.

St. Vincent's Private Hospital, Merrion Road, Dublin 4 D04 N2E0, Ireland.

出版信息

Tech Innov Patient Support Radiat Oncol. 2022 Feb 17;21:46-50. doi: 10.1016/j.tipsro.2022.01.004. eCollection 2022 Mar.

DOI:10.1016/j.tipsro.2022.01.004

PMID:35243044

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8861408/

Abstract

PURPOSE

To compare x-ray and optical imaging methods for measuring the relative position of radiation isocenter and couch rotation center. To show the impact of radiation isocenter size and target motion on the margins for target contours.

METHODS

Winston-Lutz measurements are made using EPID images. Image analysis was done with public domain software, ImageJ, and spreadsheets written in Microsoft Excel. A comparison between the center of a high density test object and center of the MLC collimated beam is used to judge the relative position of the radiation isocenter in space for gantry and couch rotation. Additionally, motion of the target with couch rotation is determined with an optical imaging system. Five different accelerators, two TrueBeams, a Trilogy, and two VersaHDs, were assessed by Winston-Lutz and optical methods.

RESULTS

The shift in the radiation isocenter with gantry rotation is found to be a tri-axial ellipsoid. Shifts in the target position with respect to radiation isocenter with couch rotation were between 0.4 and 0.6 mm. The Winston-Lutz and optical method determination of couch rotation center agreed within measurement uncertainty.

CONCLUSIONS

Image analysis yields precise data on linear accelerator radiation isocenter and rotation centers of the couch. The Winston-Lutz and optical methods agreed within measurement uncertainty.

摘要

目的

比较用于测量放射等中心和治疗床旋转中心相对位置的X射线和光学成像方法。展示放射等中心大小和靶区运动对靶区轮廓边界的影响。

方法

使用电子射野影像装置（EPID）图像进行温斯顿-卢茨测量。图像分析使用公共领域软件ImageJ以及用微软Excel编写的电子表格。通过比较高密度测试物体的中心与多叶准直器（MLC）准直射束的中心，来判断放射等中心在机架和治疗床旋转时在空间中的相对位置。此外，使用光学成像系统确定治疗床旋转时靶区的运动。通过温斯顿-卢茨和光学方法评估了五台不同的加速器，两台TrueBeam、一台Trilogy和两台VersaHD。

结果

发现放射等中心随机架旋转的偏移呈三轴椭球体。治疗床旋转时靶区相对于放射等中心的位置偏移在0.4至0.6毫米之间。温斯顿-卢茨法和光学法对治疗床旋转中心的测定在测量不确定度范围内一致。

结论

图像分析可得出关于直线加速器放射等中心和治疗床旋转中心的精确数据。温斯顿-卢茨法和光学法在测量不确定度范围内一致。

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通过温斯顿-卢茨法和光学测量确定的放射等中心及治疗床旋转中心的位置。

Positions of radiation isocenter and the couch rotation center established by Winston-Lutz and optical measurements.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

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结果

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