采样计划对[镥]镥-PSMA剂量测定的影响。

Influence of sampling schedules on [Lu]Lu-PSMA dosimetry.

作者信息

Rinscheid Andreas, Kletting Peter, Eiber Matthias, Beer Ambros J, Glatting Gerhard

机构信息

Medical Radiation Physics, Department of Nuclear Medicine, Ulm University, Albert-Einstein-Allee 23, 89081, Ulm, Germany.

Department of Nuclear Medicine, Ulm University, 89081, Ulm, Germany.

出版信息

EJNMMI Phys. 2020 Jun 17;7(1):41. doi: 10.1186/s40658-020-00311-0.

DOI:10.1186/s40658-020-00311-0

PMID:32556844

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7300169/

Abstract

BACKGROUND

Individualized dosimetry is recommended for [Lu]Lu-PSMA radioligand therapy (RLT) which is resource-intensive and protocols are often not optimized. Therefore, a simulation study was performed focusing on the determination of efficient optimal sampling schedules (OSS) for renal and tumour dosimetry by investigating different numbers of time points (TPs).

METHODS

Sampling schedules with 1-4 TPs were investigated. Time-activity curves of the kidneys and two tumour lesions were generated based on a physiologically based pharmacokinetic (PBPK) model and biokinetic data of 13 patients who have undergone [Lu]Lu-PSMA I&T therapy. Systematic and stochastic noise of different ratios was considered when modelling time-activity data sets. Time-integrated activity coefficients (TIACs) were estimated by simulating the hybrid planar/SPECT method for schedules comprising at least two TPs. TIACs based on one single SPECT/CT measurement were estimated using an approximation for reducing the number of fitted parameters. For each sampling schedule, the root-mean-squared error (RMSE) of the deviations of the simulated TIACs from the ground truths for 1000 replications was used as a measure for accuracy and precision.

RESULTS

All determined OSS included a late measurement at 192 h p.i., which was necessary for accurate and precise tumour TIACs. OSS with three TPs were identified to be 3-4, 96-100 and 192 h with an additional SPECT/CT measurement at the penultimate TP. Kidney and tumour RMSE of 6.4 to 7.7% and 6.3 to 7.8% were obtained, respectively. Shortening the total time for dosimetry to e.g. 96 h resulted in kidney and tumour RMSE of 6.8 to 8.3% and 9.1 to 11%, respectively. OSS with four TPs showed similar results as with three TPs. Planar images at 4 and 68 h and a SPECT/CT shortly after the 68 h measurement led to kidney and tumour RMSE of 8.4 to 12% and 12 to 16%, respectively. One single SPECT/CT measurement at 52 h yielded good approximations for the kidney TIACs (RMSE of 7.0%), but led to biased tumour TIACs.

CONCLUSION

OSS allow improvements in accuracy and precision of renal and tumour dosimetry for [Lu]Lu-PSMA therapy with potentially less effort. A late TP is important regarding accurate tumour TIACs.

摘要

背景

对于[镥]镥-PSMA放射性配体疗法（RLT），推荐采用个体化剂量测定法，但该方法资源密集，且方案往往未得到优化。因此，开展了一项模拟研究，重点是通过研究不同数量的时间点（TP）来确定肾脏和肿瘤剂量测定的有效最佳采样时间表（OSS）。

方法

研究了含1 - 4个TP的采样时间表。基于生理药代动力学（PBPK）模型和13例接受[镥]镥-PSMA I&T治疗患者的生物动力学数据，生成了肾脏和两个肿瘤病灶的时间-活度曲线。在对时间-活度数据集进行建模时，考虑了不同比例的系统噪声和随机噪声。对于包含至少两个TP的时间表，通过模拟混合平面/SPECT方法估计时间积分活度系数（TIAC）。基于单次SPECT/CT测量的TIAC采用一种近似方法进行估计，以减少拟合参数的数量。对于每个采样时间表，将1000次重复模拟中模拟TIAC与真实值偏差的均方根误差（RMSE）用作准确性和精密度的度量。

结果

所有确定的OSS均包括在注射后192小时进行的晚期测量，这对于准确和精确的肿瘤TIAC是必要的。确定含三个TP的OSS为3 - 4小时、96 - 100小时和192小时，并在倒数第二个TP进行额外的SPECT/CT测量。肾脏和肿瘤的RMSE分别为6.4%至7.7%和6.3%至7.8%。将剂量测定的总时间缩短至例如96小时，肾脏和肿瘤的RMSE分别为6.8%至8.3%和9.1%至11%。含四个TP的OSS显示出与含三个TP的OSS相似的结果。在4小时和68小时的平面图像以及68小时测量后不久的SPECT/CT，导致肾脏和肿瘤的RMSE分别为8.4%至12%和12%至16%。在52小时进行单次SPECT/CT测量对肾脏TIAC产生了良好的近似值（RMSE为7.0%），但导致肿瘤TIAC有偏差。

结论

OSS可提高[镥]镥-PSMA治疗中肾脏和肿瘤剂量测定的准确性和精密度，且可能工作量更小。晚期TP对于准确的肿瘤TIAC很重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd3e/7300169/4da4d994fe80/40658_2020_311_Fig1_HTML.jpg

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采样计划对[镥]镥-PSMA剂量测定的影响。

Influence of sampling schedules on [Lu]Lu-PSMA dosimetry.

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