快速多点远程表面剂量测定在全身皮肤电子治疗中的应用:闪烁体靶成像。
Rapid Multisite Remote Surface Dosimetry for Total Skin Electron Therapy: Scintillator Target Imaging.
机构信息
Thayer School of Engineering, Dartmouth College, Hanover, New Hampshire.
Department of Medicine, Geisel School of Medicine, Dartmouth College, Hanover, New Hampshire; Norris Cotton Cancer Center, Dartmouth-Hitchcock Medical Center, Lebanon, New Hampshire.
出版信息
Int J Radiat Oncol Biol Phys. 2019 Mar 1;103(3):767-774. doi: 10.1016/j.ijrobp.2018.10.030. Epub 2018 Nov 10.
PURPOSE
The goal of this work is to produce a surface-dosimetry method capable of accurately and remotely measuring skin dose for patients undergoing total skin electron therapy (TSET) without the need for postexposure dosimeter processing. A rapid and wireless surface-dosimetry system was developed to improve clinical workflow. Scintillator-surface dosimetry was conducted on patients undergoing TSET by imaging scintillator targets with an intensified camera during TSET delivery.
METHODS AND MATERIALS
Disc-shaped scintillator targets were attached to the skin surface of patients undergoing TSET and imaged with an intensified, time-gated, and linear accelerator-synchronized camera. Optically stimulated luminescence dosimeters (OSLDs) were placed directly adjacent to scintillators at several dosimetry sites to serve as an absolute dose reference. Real-time image-processing methods were used to produce background-subtracted intensity maps of Cherenkov and scintillation emission. Rapid conversion of scintillator-light output to dose was achieved by using a custom fitting algorithm and calibration factor. Surface doses measured by scintillators were compared with those from OSLDs.
RESULTS
Absolute surface-dose measurements for 99 dosimetry sites were evaluated. According to paired OSLD estimates, scintillator dosimeters were able to report dose with <3% difference in 88 of 99 observed dosimetry sites and <5% difference in 98 of 99 observed dosimetry sites. Fitting a linear regression to dose data reported by scintillator versus OSLD, per dosimetry site, yielded an R = 0.94.
CONCLUSIONS
Scintillators were able to report dose within <3% accuracy of OSLDs. Imaging of calibrated scintillator targets via an intensified, linear accelerator-synchronized camera provides rapid absolute surface-dosimetry measurements for patients treated with TSET. This technique has the potential to reduce the amount of time and effort necessary to conduct full-body dosimetry and can be adopted for use in any surface-dosimetry setting where the region of interest is observable throughout treatment.
目的
本研究旨在开发一种表面剂量测量方法,能够在无需进行后曝光剂量计处理的情况下,准确、远程地测量接受全身电子束治疗(TSET)的患者的皮肤剂量。为了改善临床工作流程,开发了一种快速、无线的表面剂量测量系统。在 TSET 治疗过程中,通过在 TSET 输送期间用增强型相机对闪烁体靶标进行成像,对接受 TSET 的患者进行闪烁体-表面剂量测量。
方法和材料
将圆盘状闪烁体靶标贴在接受 TSET 的患者的皮肤表面,并使用增强型、时间门控、与直线加速器同步的相机进行成像。在几个剂量计位置,将光激励发光剂量计(OSLD)直接放置在闪烁体旁边,作为绝对剂量参考。使用实时图像处理方法生成切伦科夫和闪烁发光的背景扣除强度图。通过使用定制拟合算法和校准因子,将闪烁体光输出快速转换为剂量。将闪烁体测量的表面剂量与 OSLD 进行比较。
结果
对 99 个剂量计位置的绝对表面剂量测量进行了评估。根据 OSLD 的配对估计,在 99 个观察到的剂量计位置中的 88 个位置,闪烁体剂量计能够以小于 3%的差异报告剂量,在 99 个观察到的剂量计位置中的 98 个位置,以小于 5%的差异报告剂量。在每个剂量计位置,对闪烁体与 OSLD 报告的剂量数据拟合线性回归,得到 R=0.94。
结论
闪烁体能够以小于 OSLD 的 3%的精度报告剂量。通过增强型、与直线加速器同步的相机对校准闪烁体靶标进行成像,为接受 TSET 治疗的患者提供了快速的绝对表面剂量测量。该技术有可能减少进行全身剂量测量所需的时间和精力,并且可以在任何需要观察整个治疗过程中的感兴趣区域的表面剂量测量环境中采用。
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