The comparison of spatial resolution of ion chamber, diode, and EBT3 film based on the dose profile

Therapeutic radiology and oncology Pub Date : 2019-09-30 DOI:10.21037/tro.2019.09.02

Han-Ping Hsueh, S. Yeh, Liyun Chang

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引用次数: 2

Abstract

Background: It is essential for the physicist to quantify the dose of the radiation prior and during cancer treatment to ensure proper execution of the treatment plan. The most common way to measure the dose is utilizing Farmer chamber. The limitation of Farmer chamber is that it only provides dose of a specific point, while the beam dose profile is needed for the planning system. The Gafchromic EBT3 film can provide a quantitative dose profile in a 2D space. The EBT3 film has low energy dependence, similar effective atomic number to water, and self-developing; making it an ideal candidate for dose profile measurement. Methods: Dose profiles of EBT3 was measured, analyzed and compared to semiflex chamber and EDGE detector under same conditions. The EBT3 films were placed at the center of RW3 water phantom (30×30×30 cm 3 ) under flattening filter free (FFF) Mode of Linac. The EBT3 films were calibrated by additional RW3 with a Farmer chamber under the stacked RW3 water phantom. Percentage depth dose (PDD) and Matlab were used to fit the dose curve of EBT3 and the results are presented. Results: The penumbra of the measured dose profile through EBT3 film demonstrated little differences when comparing with that of the EDGE detector and noticeable differences when compared to that of the semiflex chamber. For a field size of 2×2 cm 2 , (b=0.08, depth of 5 cm, beam off central axis 0.8 cm), the measured difference of dose profile between EBT3 and EDGE detector is –2.24%. Under the same conditions, the dose profile difference between EBT3 and semiflex chamber is 10.59%. Conclusions: This study shows that EDGE detector has the highest spatial resolution to the dose profile. EBT3 film in combination with solid phantom can quickly sample dose profile in 2D. EBT3 film can be considered to be an excellent quality assurance (QA) tool with accurate dosimetry, a good spatial resolution and tolerable dose uncertainty.

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基于剂量分布的离子室、二极管和EBT3薄膜的空间分辨率比较

背景:对于物理学家来说，在癌症治疗前和治疗过程中量化放射剂量是至关重要的，以确保治疗计划的正确执行。测量剂量最常用的方法是利用法默室。法默室的局限性在于它只能提供某一点的剂量，而规划系统需要光束剂量分布图。Gafchromic EBT3薄膜可以在二维空间中提供定量剂量分布。EBT3薄膜能量依赖性低，有效原子序数与水相似，具有自显影性;使其成为剂量谱测量的理想候选者。方法:在相同条件下，测定、分析EBT3的剂量谱，并与半弯曲室和EDGE检测器进行比较。将EBT3薄膜置于RW3水影中心(30×30×30 cm 3)，采用Linac无压平滤光片(FFF)模式。在堆叠的RW3水模下，用一个Farmer腔室对EBT3薄膜进行校准。采用百分比深度剂量法(PDD)和Matlab对EBT3的剂量曲线进行拟合，并给出了拟合结果。结果:通过EBT3膜测量的剂量谱的半影与EDGE检测器相比差异不大，与半弯曲腔相比差异显著。当场尺寸为2×2 cm 2， (b=0.08，深度为5 cm，光束偏离中心轴0.8 cm)时，EBT3与EDGE探测器测量到的剂量谱差为-2.24%。在相同条件下，EBT3与半弯曲腔的剂量分布差为10.59%。结论:本研究表明EDGE探测器对剂量谱具有最高的空间分辨率。EBT3薄膜结合固体幻膜可以快速采样二维剂量谱。EBT3薄膜具有准确的剂量测定、良好的空间分辨率和可耐受的剂量不确定度，是一种优良的质量保证(QA)工具。

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

Therapeutic radiology and oncology

CiteScore

0.50

自引率

0.00%

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