Joint regional uptake quantification of thorium-227 and radium-223 using a multiple-energy-window projection-domain quantitative SPECT method.

Zekun Li, Nadia Benabdallah, Richard Laforest, Richard L Wahl, Daniel L J Thorek, Abhinav K Jha
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Abstract

Thorium-227 (227Th)-based α-particle radiopharmaceutical therapies (α-RPTs) are currently being investigated in several clinical and pre-clinical studies. After administration, 227Th decays to 223Ra, another α-particle-emitting isotope, which redistributes within the patient. Reliable dose quantification of both 227Th and 223Ra is clinically important, and SPECT may perform this quantification as these isotopes also emit X- and γ-ray photons. However, reliable quantification is challenging for several reasons: the orders-of-magnitude lower activity compared to conventional SPECT, resulting in a very low number of detected counts, the presence of multiple photopeaks, substantial overlap in the emission spectra of these isotopes, and the image-degrading effects in SPECT. To address these issues, we propose a multiple-energy-window projection-domain quantification (MEW-PDQ) method that jointly estimates the regional activity uptake of both 227Th and 223Ra directly using the SPECT projection data from multiple energy windows. We evaluated the method with realistic simulation studies conducted with anthropomorphic digital phantoms, including a virtual imaging trial, in the context of imaging patients with bone metastases of prostate cancer who were treated with 227Th-based α-RPTs. The proposed method yielded reliable (accurate and precise) regional uptake estimates of both isotopes and outperformed state-of-the-art methods across different lesion sizes and contrasts, as well as in the virtual imaging trial. This reliable performance was also observed with moderate levels of intra-regional heterogeneous uptake as well as when there were moderate inaccuracies in the definitions of the support of various regions. Additionally, we demonstrated the effectiveness of using multiple energy windows and the variance of the estimated uptake using the proposed method approached the Cramér-Rao-lower-bound-defined theoretical limit. These results provide strong evidence in support of this method for reliable uptake quantification in 227Th-based α-RPTs.

使用多能量窗投影域定量 SPECT 方法联合量化钍-227 和镭-223 的区域摄取量。
基于钍-227(227Th)的α粒子放射性药物疗法(α-RPTs)目前正在进行多项临床和临床前研究。用药后,227Th 会衰变为 223Ra(另一种α粒子发射同位素),并在患者体内重新分布。对 227Th 和 223Ra 进行可靠的剂量定量在临床上非常重要,SPECT 可以进行这种定量,因为这些同位素也会发射 X 和 γ 射线光子。然而,可靠的定量具有挑战性,原因有几个:与传统的 SPECT 相比,这些同位素的放射性活度低几个数量级,导致检测到的计数非常少;存在多个光峰;这些同位素的发射光谱存在大量重叠;以及 SPECT 的图像降级效应。为了解决这些问题,我们提出了一种多能量窗投影域量化(MEW-PDQ)方法,该方法直接利用多个能量窗的 SPECT 投影数据来联合估算 227Th 和 223Ra 的区域活性吸收。我们利用拟人数字模型(包括虚拟成像试验)进行了逼真的模拟研究,评估了该方法在前列腺癌骨转移患者接受基于 227Th 的 α-RPTs 治疗时的成像效果。在不同的病灶大小和对比度以及虚拟成像试验中,所提出的方法对两种同位素的区域摄取量都做出了可靠(准确和精确)的估计,并优于最先进的方法。在中度区域内异质摄取以及各区域支持定义存在中度误差的情况下,也能观察到这种可靠的性能。此外,我们还证明了使用多个能量窗口的有效性,而且使用所提方法估算的摄取量方差接近克拉梅尔-拉奥下限定义的理论极限。这些结果为该方法在基于 227Th 的 α-RPT 中进行可靠的吸收定量提供了有力的支持。
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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