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使用定义的能量窗对钍-227 和镭-223 进行定量双同位素平面成像。

Quantitative Dual-Isotope Planar Imaging of Thorium-227 and Radium-223 Using Defined Energy Windows.

机构信息

Physics Department, Royal Marsden NHS Hospital, Sutton, United Kingdom.

Bayer AG, Berlin, Germany.

出版信息

Cancer Biother Radiopharm. 2020 Sep;35(7):530-539. doi: 10.1089/cbr.2019.3554. Epub 2020 May 19.

DOI:10.1089/cbr.2019.3554
PMID:32429699
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7475104/
Abstract

Thorium-227 is an alpha-emitting radioisotope with potential therapeutic applications in targeted alpha therapy. Thorium-227 decays to Radium-223, which may have an independent biodistribution to that of the parent Thorium-227 radiopharmaceutical. Quantitative imaging with sodium iodide (NaI) detectors is challenging due to cross-talk between neighboring γ-photopeaks as well as scattered γ-photons. The aim of this work was to validate the use of a spectral analysis technique to estimate the activity of each isotope within a region of interest applied to a pair of conjugate view planar acquisitions, acquired at multiple energy windows. Energy spectra per unit activity arising from unscattered Thorium-227 photons and Radium-223 photons as well as from scattered photons were modeled. These spectra were scaled until the combination of these component spectra resulted in the closest match to the measured data in four energy windows. Measured estimates of activity followed the known decay curves in phantoms representative of a human torso. The mean errors in estimating Thorium-227 and Radium-223 were 5.1% (range -8.0% to 40.0%) and 3.4% (range -50.0% to 48.7%), respectively. The differences between the integrals of the theoretical and estimated time activity curve were <10% for both Thorium-227 and Radium-223. γ-camera quantification of Thorium-227 and Radium-223 can be achieved by using multiple energy window acquisitions.

摘要

钍-227 是一种发射阿尔法粒子的放射性同位素,具有在靶向阿尔法治疗中应用的潜力。钍-227 衰变为镭-223,其生物分布可能与母体钍-227 放射性药物独立。由于相邻 γ-光子峰之间的串扰以及散射 γ-光子的存在,使用碘化钠(NaI)探测器进行定量成像具有挑战性。本工作的目的是验证使用光谱分析技术来估计感兴趣区域内每个同位素的活性,该技术应用于一对共轭视图平面采集,在多个能量窗口中采集。对未散射的钍-227 光子和镭-223 光子以及散射光子的单位活性产生的能谱进行了建模。这些谱被缩放,直到这些分量谱的组合产生与四个能量窗口中测量数据最接近的匹配。在代表人体躯干的体模中,测量的活性估计值遵循已知的衰减曲线。估计钍-227 和镭-223 的平均误差分别为 5.1%(范围为-8.0%至 40.0%)和 3.4%(范围为-50.0%至 48.7%)。对于钍-227 和镭-223,理论和估计时间活动曲线积分之间的差异均<10%。使用多个能量窗口采集可以实现对钍-227 和镭-223 的γ相机定量。

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