Age‐dependent dose calculations for common PET radionuclides and brain radiotracers in nonhuman primate computational models

• Published in: Medical physics (Lancaster) Vol. 47; no. 9; pp. 4465 - 4476
• Main Authors: Xie, Tianwu, Chen, Xin, Zaidi, Habib
• Format: Journal Article
• Language: English
• Published: United States 01.09.2020
• Subjects: Animals; Brain - diagnostic imaging; computational models; Computer Simulation; molecular imaging; Monte Carlo simulations; nonhuman primates; Positron-Emission Tomography; Primates; radiation dosimetry; Radioisotopes; Radiometry; computational models; Monte Carlo simulations; nonhuman primates; molecular imaging; radiation dosimetry
• ISSN: 0094-2405; 2473-4209; 2473-4209
• DOI: 10.1002/mp.14333

Purpose The combination of nonhuman primates (NHPs) with the state‐of‐the‐art molecular imaging technologies allows for within‐subject longitudinal research aiming at gaining new insights into human normal and disease conditions and provides an ideal foundation for future translational studies of new diagnostic tools, medical interventions, and therapies. However, radiation dose estimations for nonhuman primates from molecular imaging probes are lacking and are difficult to perform experimentally. The aim of this work is to construct age‐dependent NHP computational model series to estimate the absorbed dose to NHP specimens in common molecular imaging procedures. Materials and methods A series of NHP models from baby to adult were constructed based on nonuniform rational B‐spline surface (NURBS) representations. Particle transport was simulated using Monte Carlo calculations to estimate S‐values from nine positron‐emitting radionuclides and absorbed doses from PET radiotracers. Results Realistic age‐dependent NHP computational model series were developed. For most source‐target pairs in computational NHP models, differences between C‐11 S‐values were between −13.4% and −8.8%/kg difference in body weight while differences between F‐18 S‐values were between −12.9% and −8.0%/kg difference in body weight. The absorbed doses of 11C‐labeled brain receptor substances, 18F‐labeled brain receptor substances, and 18F‐FDG in the brain ranged within 0.047–0.32 mGy/MBq, 0.25–1.63 mGy/MBq, and 0.32–2.12 mGy/MBq, respectively. Conclusion The absorbed doses to organs are significantly higher in the baby NHP model than in the adult model. These results can be used in translational longitudinal studies to estimate the cumulated absorbed organ doses in NHPs at various ages.