Application of OSL strips in CT dosimetry according to the AAPM methodology

R. Terini, Johnatan Dias Oliveira, E. Yoshimura
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Abstract

Computed tomography (CT) images contribute to high-quality medical diagnosis, but radiation dose can be quite high, requiring accurate assessment. CT dose index (CTDI) was developed for dosimetric purposes, but for scanners operated exclusively in axial mode. Nowadays, CTDI underestimate patient dose in helical CT exams. AAPM report TG111 (2010) suggested a new metric in which the patient's radiation dose is obtained from dose profiles constructed from several measurements made with a small ionization chamber. It is also possible to obtain dose profiles using properly calibrated OSL (optically stimulated luminescence) strips. The main objective of the present work is to contribute to optimizing CT dosimetry, comparing dose profiles obtained with OSL strips with measurements obtained by other authors. In this work, a “pencil” ionization chamber and 20 cm x 0.3 cm OSL strips were X-ray-irradiated, in air and in the holes of two cylindrical CT phantoms, using 100, 120, 140 kV peak voltages, both in lab and in a clinical CT scanner. Irradiated strips were read using an OSL reader built in the GDRFM. OSL profiles were calibrated against ionization chamber. From them, CTDIw and CTDIvol values were determined, differing approximately 3.9% from those of the CT scanner. From the profiles, also the planar equilibrium dose Deq,p (TG111) was evaluated in some CT protocols; Deq,p exceeded the CTDI values from the CT scanner in every case. E.g.: The percentage difference between Deq,p and CTDIvol for the head phantom ranged between 33-25%. Thus, in some cases, it could be advantageous to use calibrated OSL dosimeters instead of ionization chambers to obtain the profiles, saving time, because it is possible to obtain five OSL profiles from a single phantom irradiation.
基于AAPM方法的OSL条在CT剂量测定中的应用
计算机断层扫描(CT)图像有助于高质量的医学诊断,但辐射剂量可能相当高,需要准确的评估。CT剂量指数(CTDI)是为剂量学目的而开发的,但仅限于轴向模式下的扫描仪。目前,在螺旋CT检查中,CTDI低估了患者的剂量。AAPM报告TG111(2010)提出了一种新的度量方法,其中患者的辐射剂量是通过用小型电离室进行的多次测量构建的剂量谱来获得的。也可以使用适当校准的OSL(光激发发光)条获得剂量分布。本工作的主要目的是优化CT剂量学,比较OSL条获得的剂量曲线与其他作者获得的测量结果。在这项工作中,在实验室和临床CT扫描仪中,使用100、120、140千伏的峰值电压,在空气中和两个圆柱形CT幻象的孔中,对一个“铅笔”电离室和20厘米x 0.3厘米的OSL条进行x射线照射。使用GDRFM内置的OSL读取器读取辐照条。根据电离室校准OSL剖面。由此确定CTDIw和CTDIvol值,与CT扫描仪的值相差约3.9%。在一些CT方案中,还从剖面中评估了平面平衡剂量Deq,p (TG111);Deq、p均超过CT扫描的CTDI值。例:头部幻像的Deq、p和CTDIvol之间的百分比差异在33-25%之间。因此,在某些情况下,使用校准过的OSL剂量计而不是电离室来获得谱线可能是有利的,这样可以节省时间,因为可以从一次幻象照射中获得5个OSL谱线。
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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