Investigation of magnetic field effects on the dose–response of 3D dosimeters for magnetic resonance – image guided radiation therapy applications

Hannah J. Lee; Yvonne Roed; Sara Venkataraman; Mitchell Carroll; Geoffrey S. Ibbott

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Investigation of magnetic field effects on the dose–response of 3D dosimeters for magnetic resonance – image guided radiation therapy applications

机译：磁共振 - 图像引导辐射治疗应用3D剂量计对磁场响应的磁场响应的研究

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Abstract Background and purpose The strong magnetic field of integrated magnetic resonance imaging (MRI) and radiation treatment systems influences secondary electrons resulting in changes in dose deposition in three dimensions. To fill the need for volumetric dose quality assurance, we investigated the effects of strong magnetic fields on 3D dosimeters for MR-image-guided radiation therapy (MR-IGRT) applications. Material and methods There are currently three main categories of 3D dosimeters, and the following were used in this study: radiochromic plastic (PRESAGE?), radiochromic gel (FOX), and polymer gel (BANG?). For the purposes of batch consistency, an electromagnet was used for same-day irradiations with and without a strong magnetic field ( B 0 , 1.5T for PRESAGE? and FOX and 1.0T for BANG?). Results For PRESAGE?, the percent difference in optical signal with and without B 0 was 1.5% at the spectral peak of 632nm. For FOX, the optical signal percent difference was 1.6% at 440nm and 0.5% at 585nm. For BANG?, the percent difference in R 2 MR signal was 0.7%. Conclusions The percent differences in responses with and without strong magnetic fields were minimal for all three 3D dosimeter systems. These 3D dosimeters therefore can be applied to MR-IGRT without requiring a correction factor.

机译：摘要背景和目的集成磁共振成像（MRI）和辐射处理系统的强磁场影响二次电子导致三维剂量沉积的变化。为了填补容量剂量质量保证的需求，我们研究了强磁场对MR-IGAL-POWED放射治疗（MR-IGRT）应用的3D剂量计的影响。材料和方法目前有三个主要类别的3D剂量计，并在本研究中使用以下内容：放射刻度塑料（展示），放射褐色凝胶（Fox）和聚合物凝胶（BANN？）。出于批量一致性的目的，电磁铁用于与强磁场（B 0,1.5T的B 0,1.5T的频率（B 0,1.5T）用于同日照射（B型爆炸，1.0t，爆震1.0t。展示的结果？，光谱峰值632nm的光谱峰值下光信号的百分比为1.5％。对于狐狸，光学信号百分比差异为1.6％，在440nm处为0.5％，585nm。对于BANG？，R 2 MR信号的百分比差异为0.7％。结论所有三个3D剂量系统对所有三个3D剂量系统的反应差异差异最小。因此，这些3D剂量计可以应用于MR-IGRT而不需要校正因子。

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来源
《Radiotherapy and oncology: Journal of the European Society for Therapeutic Radiology and Oncology》 |2017年第3期|共7页
作者
Hannah J. Lee; Yvonne Roed; Sara Venkataraman; Mitchell Carroll; Geoffrey S. Ibbott;
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作者单位

Department of Radiation Physics The University of Texas MD Anderson Cancer Center;

Department of Radiation Physics The University of Texas MD Anderson Cancer Center;

Department of Radiation Physics The University of Texas MD Anderson Cancer Center;

Department of Radiation Physics The University of Texas MD Anderson Cancer Center;

Department of Radiation Physics The University of Texas MD Anderson Cancer Center;

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正文语种 eng
中图分类肿瘤学;
关键词
MR-Linac; IGRT; MR-IGRT; 3D dosimetry;

机译：MR-LINAC;IGRT;MR-IGRT;3D剂量测定法;

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1. Investigation of magnetic field effects on the dose–response of 3D dosimeters for magnetic resonance – image guided radiation therapy applications [J] . Hannah J. Lee, Yvonne Roed, Sara Venkataraman, Radiotherapy and oncology: Journal of the European Society for Therapeutic Radiology and Oncology . 2017,第3期

机译：磁共振 - 图像引导辐射治疗应用3D剂量计对磁场响应的磁场响应的研究
2. Cervical Gross Tumor Volume Dose Predicts Local Control Using Magnetic Resonance Imaging/Diffusion-Weighted Imaging-Guided High-Dose-Rate and Positron Emission Tomography/Computed Tomography-Guided Intensity Modulated Radiation Therapy [J] . Dyk Pawel, Jiang Naomi, Sun Baozhou, International Journal of Radiation Oncology, Biology, Physics . 2014,第4期

机译：子宫颈总肿瘤体积剂量可预测使用磁共振成像/弥散加权成像-高剂量率和正电子发射断层扫描/计算机断层扫描-引导强度调制放射治疗的局部控制
3. Dose verification of a clinical intensity-modulated radiation therapy eye case by the magnetic resonance imaging of N-isopropylacrylamide gel dosimeters [J] . Yen-Li Chen, Bor-Tsung Hsieh, Chin-Ming Chiang Radiation Physics and Chemistry . 2014,第Null期

机译：通过N-异丙基丙烯酰胺凝胶剂量计的磁共振成像对临床强度调制放射治疗眼科病例进行剂量验证
4. Impact of Magnetic Fields on Dose Distributions Delivered with a Device for 3D Image-Guided Radiotherapy [C] . B. Dionne, A. Haghighat, J. Dempsey American Nuclear Society (ANS) 2006 Winter Meeting . 2006

机译：磁场对3D图像引导放射治疗设备提供的剂量分布的影响
5. Adaptive model-predictive control and 3D acoustic radiation force imaging for the improvement of magnetic resonance-guided focused ultrasound therapies. [D] . de Bever, Joshua Thomas. 2015

机译：自适应模型预测控制和3D声辐射力成像，用于改进磁共振引导的聚焦超声治疗。
6. Dynamic contrast-enhanced magnetic resonance imaging of osseous spine metastasis before and 1 hour after high-dose image-guided radiation therapy [O] . Eric Lis, Atin Saha, Kyung K. Peck, -1

机译：大剂量图像引导放射治疗前和后1小时的动态对比增强磁共振成像分析骨性脊柱转移
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8. Local and Global Thermoregulatory Responses to MRI Electromagnetic Fields:Biological Effects and Safety Aspects of Nuclear Magnetic Resonance Imaging and Spectroscopy [R] . Gordon, C. J. 1991

机译：对mRI电磁场的局部和全球体温调节响应：核磁共振成像和光谱学的生物效应和安全性方面

Investigation of magnetic field effects on the dose–response of 3D dosimeters for magnetic resonance – image guided radiation therapy applications

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