Litcius/Paper detail

Lu-177-PSMA dosimetry for kidneys and tumors based on SPECT images at two imaging time points

Gefei Chen, Zhong‐Lin Lu, Han Jiang, Ali Afshar‐Oromieh, Axel Rominger, Kuangyu Shi, Greta S. P. Mok

2023Frontiers in Medicine10 citationsDOIOpen Access PDF

Abstract

Background: Personalized dosimetry for Lu-177-PSMA treatment requires multiple-time-point SPECT/CT scans to calculate time-integrated activity (TIA). This study evaluates two-time-point (TTP) methods for TIA calculation for kidneys and tumors. Methods: = 7) after treatment, and they were fit bi-exponentially as reference. The TTP method was fitted by a mono-exponential washout function using two selected imaging time points for kidneys. For tumors, one uptake and one washout phase were modeled, assuming linear (type I) and same (type II) uptake phase between 0 h to the first time point and mono-exponential washout thereafter. Two single-time-point (STP) methods were also implemented for comparison. TIA calculated by TTP and STP methods were compared with reference to the 4TP TIA. Results: For the kidneys, the TTP methods using 20 h-60 h and 40 h-200 h had smaller mean absolute errors of 8.05 ± 6.05% and 4.95 ± 3.98%, respectively, as compared to other combinations of time points and STP methods. For tumors, the type I and type II TTP methods using 20h-60 h and 40-200 h had smaller mean absolute errors of 6.14 ± 5.19% and 12.22 ± 4.44%, and 8.31 ± 7.16% and 4.48 ± 7.10%, respectively, as compared to other TTP and STP methods. Conclusion: The TTP methods based on later imaging time demonstrated fewer errors than the STP methods in kidney and tumor TIA. Imaging at 20 h-60 h and 40 h-200 h could simplify the dosimetry procedures with fewer TIA estimation errors.

Topics & Concepts

Nuclear medicineWashoutDosimetryMedicineSpect imagingInternal medicineProstate Cancer Treatment and ResearchRadiopharmaceutical Chemistry and ApplicationsMedical Imaging Techniques and Applications