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Population pharmacokinetic dosimetry model using imaging data to assess variability in pharmacokinetics of 177Lu‐PSMA‐617 in prostate cancer patients.

Authors :
Siebinga, Hinke
Privé, Bastiaan M.
Peters, Steffie M. B.
Nagarajah, James
Dorlo, Thomas P. C.
Huitema, Alwin D. R.
de Wit‐van der Veen, Berlinda J.
Hendrikx, Jeroen J. M. A.
Source :
CPT: Pharmacometrics & Systems Pharmacology; Aug2023, Vol. 12 Issue 8, p1060-1071, 12p
Publication Year :
2023

Abstract

Studies to evaluate and optimize [177Lu]Lu‐PSMA treatment focus primarily on individual patient data. A population pharmacokinetic (PK) dosimetry model was developed to explore the potential of using imaging data as input for population PK models and to characterize variability in organ and tumor uptake of [177Lu]Lu‐PSMA‐617 in patients with low volume metastatic prostate cancer. Simulations were performed to identify the effect of dose adjustments on absorbed doses in salivary glands and tumors. A six‐compartment population PK model was developed, consisting of blood, salivary gland, kidneys, liver, tumor, and a lumped compartment representing other tissue (compartment 1–6, respectively), based on data from 10 patients who received [177Lu]Lu‐PSMA‐617 (2 cycles, ~ 3 and ~ 6 GBq). Data consisted of radioactivity levels (decay corrected) in blood and tissues (9 blood samples and 5 single photon emission computed tomography/computed tomography scans). Observations in all compartments were adequately captured by individual model predictions. Uptake into salivary glands was saturable with an estimated maximum binding capacity (Bmax) of 40.4 MBq (relative standard error 12.3%) with interindividual variability (IIV) of 59.3% (percent coefficient of variation [CV%]). IIV on other PK parameters was relatively minor. Tumor volume was included as a structural effect on the tumor uptake rate constant (k15), where a two‐fold increase in tumor volume resulted in a 1.63‐fold increase in k15. In addition, interoccasion variability on k15 improved the model fit (43.5% [CV%]). Simulations showed a reduced absorbed dose per unit administered activity for salivary glands after increasing radioactivity dosing from 3 to 6 GBq (0.685 Gy/GBq vs. 0.421 Gy/GBq, respectively). All in all, population PK modeling could help to improve future radioligand therapy research. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
21638306
Volume :
12
Issue :
8
Database :
Complementary Index
Journal :
CPT: Pharmacometrics & Systems Pharmacology
Publication Type :
Academic Journal
Accession number :
169971707
Full Text :
https://doi.org/10.1002/psp4.12914