多时间点剂量测定参考方案对[177Lu]Lu-PSMA-I&T疗法单时间点剂量测定有效性的影响

Sandra Resch, Sibylle I. Ziegler, Gabriel Sheikh, Lena M. Unterrainer, Mathias J. Zacherl, Peter Bartenstein, Guido Böning, Julia Brosch-Lenz, Astrid Delker
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引用次数: 0

摘要

体内剂量测定有助于在放射性核素治疗过程中对患者进行安全有效的管理。然而,由于必须采集多个时间点(MTP)的患者扫描,因此临床工作量大、成本高、患者负担重。基于单个时间点(STP)成像的剂量测定方法越来越受欢迎。然而,作为判断 STP 剂量测定有效性的参考,MTP 方案因当地要求而异,并偏离未知的患者特定基本真实药代动力学。本研究旨在比较使用不同参考 MTP 方案的不同 STP 方法的误差和最佳时间点。研究方法安排在注射后 24、48、72 和 168 小时对 7 名患者(7.4-8.9 GBq [177Lu]Lu-PSMA-I&T)进行全身 SPECT/CT 扫描。在SPECT/CT数据中划定了60个病灶、14个肾脏和10个下颌下腺。根据拟合优度分析(变异系数、平方误差之和),对 MTP 数据拟合了两种曲线模型,即单指数模型和双指数模型。比较了三种基于人群的 STP 方法:Hänscheid 等人公布的一种方法、Jackson 等人公布的一种方法以及在单或双指数曲线模型中使用基于人群的有效半衰期的方法。评估了 STP 和 MTP 剂量测定之间的百分比差异。结果:拟合优度参数表明,单指数函数和双指数函数具有共享的基于人群的参数和物理尾部,是合理的参考模型。在比较这两种参考模型时,我们观察到病变、肾脏和唾液腺的估计吸收剂量的最大差异分别为-44%、-19%和-28%。STP 剂量测定与 MTP 剂量测定的平均偏差小于 10%,这可能是可行的;但这一偏差和最佳成像时间点显示出对所选参考方案的依赖性。结论用于[177Lu]Lu-PSMA治疗的STP剂量测定有望促进剂量测定与临床常规的整合。根据我们的患者队列,注射后 48 小时可视为病变和高危器官 STP 剂量测定的折中点。这项分析的结果表明,剂量测定的通用黄金标准是可取的,以便进行可靠和可比较的 STP 剂量测定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of the Reference Multiple-Time-Point Dosimetry Protocol on the Validity of Single-Time-Point Dosimetry for [177Lu]Lu-PSMA-I&T Therapy

Internal dosimetry supports safe and effective patient management during radionuclide therapy. Yet, it is associated with high clinical workload, costs, and patient burden, as patient scans at multiple time points (MTPs) must be acquired. Dosimetry based on imaging at a single time point (STP) has continuously gained popularity. However, MTP protocols, used as a reference to judge the validity of STP dosimetry, differ depending on local requirements and deviate from the unknown patient-specific ground truth pharmacokinetics. The aim of this study was to compare the error and optimum time point for different STP approaches using different reference MTP protocols. Methods: Whole-body SPECT/CT scans of 7 patients (7.4–8.9 GBq of [177Lu]Lu-PSMA-I&T) were scheduled at 24, 48, 72, and 168 h after injection. Sixty lesions, 14 kidneys, and 10 submandibular glands were delineated in the SPECT/CT data. Two curve models, that is, a mono- and a biexponential model, were fitted to the MTP data, in accordance with goodness-of-fit analysis (coefficients of variation, sum of squared errors). Three population-based STP approaches were compared: one method published by Hänscheid et al., one by Jackson et al., and one using population-based effective half-lives in the mono- or biexponential curve models. Percentage differences between STP and MTP dosimetry were evaluated. Results: Goodness-of-fit parameters show that a monoexponential function and a biexponential function with shared population-based parameters and physical tail are reasonable reference models. When comparing both reference models, we observed maximum differences of −44%, −19%, and −28% in the estimated absorbed doses for lesions, kidneys, and salivary glands, respectively. STP dosimetry with an average deviation of less than 10% from MTP dosimetry may be feasible; however, this deviation and the optimum imaging time point showed a dependence on the chosen reference protocol. Conclusion: STP dosimetry for [177Lu]Lu-PSMA therapy is promising to boost the integration of dosimetry into clinical routine. According to our patient cohort, 48 h after injection may be regarded as a compromise for STP dosimetry for lesions and at-risk organs. The results from this analysis show that a common gold standard for dosimetry is desirable to allow for reliable and comparable STP dosimetry.

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