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使用高分辨率闪烁体光纤剂量计进行X射线微束测量。

X-ray microbeam measurements with a high resolution scintillator fibre-optic dosimeter.

作者信息

Archer James, Li Enbang, Petasecca Marco, Dipuglia Andrew, Cameron Matthew, Stevenson Andrew, Hall Chris, Hausermann Daniel, Rosenfeld Anatoly, Lerch Michael

机构信息

Centre for Medical Radiation Physics, University of Wollongong, Wollongong, NSW, 2522, Australia.

Illawarra Health and Medical Research Institute, University of Wollongong, Wollongong, NSW, 2522, Australia.

出版信息

Sci Rep. 2017 Sep 29;7(1):12450. doi: 10.1038/s41598-017-12697-6.

Abstract

Synchrotron microbeam radiation therapy is a novel external beam therapy under investigation, that uses highly brilliant synchrotron x-rays in microbeams 50 μm width, with separation of 400 μm, as implemented here. Due to the fine spatial fractionation dosimetry of these beams is a challenging and complicated problem. In this proof-of-concept work, we present a fibre optic dosimeter that uses plastic scintillator as the radiation conversion material. We claim an ideal one-dimensional resolution of 50 μm. Using plastic scintillator and fibre optic makes this dosimeter water-equivalent, a very desirable dosimetric property. The dosimeter was tested at the Australian Synchrotron, on the Imaging and Medical Beam-Line. The individual microbeams were able to be resolved and the peak-to-valley dose ratio and the full width at half maximum of the microbeams was measured. These results are compared to a semiconductor strip detector of the same spatial resolution. A percent depth dose was measured and compared to data acquired by an ionisation chamber. The results presented demonstrate significant steps towards the development of an optical dosimeter with the potential to be applied in quality assurance of microbeam radiation therapy, which is vital if clinical trials are to be performed on human patients.

摘要

同步加速器微束放射治疗是一种正在研究中的新型外照射治疗方法,在此所实施的是利用宽度为50μm、间距为400μm的微束中的高亮度同步加速器X射线。由于这些束的精细空间分割剂量测定是一个具有挑战性和复杂性的问题。在这项概念验证工作中,我们展示了一种使用塑料闪烁体作为辐射转换材料的光纤剂量计。我们宣称其理想的一维分辨率为50μm。使用塑料闪烁体和光纤使该剂量计具有水等效性,这是一种非常理想的剂量学特性。该剂量计在澳大利亚同步加速器的成像和医疗束线上进行了测试。能够分辨出各个微束,并测量了微束的峰谷剂量比和半高宽。将这些结果与具有相同空间分辨率的半导体条探测器进行了比较。测量了百分深度剂量,并与电离室获取的数据进行了比较。所呈现的结果表明,朝着开发一种有可能应用于微束放射治疗质量保证的光学剂量计迈出了重要一步,如果要对人类患者进行临床试验,这至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a756/5622140/3bc05024de54/41598_2017_12697_Fig1_HTML.jpg

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