用于微平面X射线束实时剂量测定的光纤探测器。
Fiber-optic detector for real time dosimetry of a micro-planar x-ray beam.
作者信息
Belley Matthew D, Stanton Ian N, Hadsell Mike, Ger Rachel, Langloss Brian W, Lu Jianping, Zhou Otto, Chang Sha X, Therien Michael J, Yoshizumi Terry T
机构信息
Medical Physics Graduate Program, Duke University Medical Center, Durham, North Carolina 27705 and Duke Radiation Dosimetry Laboratory, Duke University Medical Center, Durham, North Carolina 27710.
Department of Chemistry, Duke University, 124 Science Drive, Durham, North Carolina 27708.
出版信息
Med Phys. 2015 Apr;42(4):1966-72. doi: 10.1118/1.4915078.
PURPOSE
Here, the authors describe a dosimetry measurement technique for microbeam radiation therapy using a nanoparticle-terminated fiber-optic dosimeter (nano-FOD).
METHODS
The nano-FOD was placed in the center of a 2 cm diameter mouse phantom to measure the deep tissue dose and lateral beam profile of a planar x-ray microbeam.
RESULTS
The continuous dose rate at the x-ray microbeam peak measured with the nano-FOD was 1.91 ± 0.06 cGy s(-1), a value 2.7% higher than that determined via radiochromic film measurements (1.86 ± 0.15 cGy s(-1)). The nano-FOD-determined lateral beam full-width half max value of 420 μm exceeded that measured using radiochromic film (320 μm). Due to the 8° angle of the collimated microbeam and resulting volumetric effects within the scintillator, the profile measurements reported here are estimated to achieve a resolution of ∼0.1 mm; however, for a beam angle of 0°, the theoretical resolution would approach the thickness of the scintillator (∼0.01 mm).
CONCLUSIONS
This work provides proof-of-concept data and demonstrates that the novel nano-FOD device can be used to perform real-time dosimetry in microbeam radiation therapy to measure the continuous dose rate at the x-ray microbeam peak as well as the lateral beam shape.
目的
在此,作者描述了一种使用纳米颗粒端接光纤剂量计(nano-FOD)进行微束放射治疗剂量测量的技术。
方法
将nano-FOD置于直径2 cm的小鼠模型中心,以测量平面X射线微束的深部组织剂量和侧向射束轮廓。
结果
用nano-FOD测量的X射线微束峰值处的连续剂量率为1.91±0.06 cGy s⁻¹,该值比通过放射变色胶片测量确定的值(1.86±0.15 cGy s⁻¹)高2.7%。nano-FOD确定的侧向射束半高全宽值为420μm,超过了使用放射变色胶片测量的值(320μm)。由于准直微束的8°角以及闪烁体内产生的体积效应,此处报告的轮廓测量估计可实现约0.1 mm的分辨率;然而,对于0°的射束角度,理论分辨率将接近闪烁体的厚度(约0.01 mm)。
结论
这项工作提供了概念验证数据,并证明了新型nano-FOD设备可用于在微束放射治疗中进行实时剂量测定,以测量X射线微束峰值处的连续剂量率以及侧向射束形状。
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