Pilot study on 11C-CFT dynamic imaging using total-body PET/CT: biodistribution and radiation dosimetry in Parkinson's disease

Mei Xin; Lianghua Li; Cheng Wang; Hongda Shao; Jianjun Liu; Chenpeng Zhang

doi:10.3389/fneur.2023.1153779

Pilot study on ¹¹C-CFT dynamic imaging using total-body PET/CT: biodistribution and radiation dosimetry in Parkinson's disease

Front Neurol. 2023 May 16:14:1153779. doi: 10.3389/fneur.2023.1153779. eCollection 2023.

Authors

Mei Xin^#¹, Lianghua Li^#¹, Cheng Wang¹, Hongda Shao¹, Jianjun Liu¹, Chenpeng Zhang¹

Affiliation

¹ Department of Nuclear Medicine, Renji Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China.

^# Contributed equally.

Abstract

Objective: Total-body PET/CT equipment, uEXPLORER, is a newly developed imaging technology with a superior resolution, high sensitivity, and high signal-to-noise ratio, providing unique application advantages in the pharmacokinetic evaluation of positron tracers. While ¹¹C-CFT PET/CT has been widely utilized in the early diagnosis of Parkinson's disease (PD), it is limited by the short half-life of the radionuclide and an incomplete understanding of its biological distribution in humans. This study aimed to use a total-body PET/CT dynamic scan with ¹¹C-CFT imaging to describe the real-time internal biodistribution in PD patients and to obtain accurate radiation dosimetry.

Methods: Six male subjects with suspected PD underwent dynamic ¹¹C-CFT total-body PET/CT. Following a bedside intravenous bolus injection of 373.3 ± 71.56 MBq of ¹¹C-CFT, PET acquisition was performed synchronously for 75 min with a maximum axial field of view (AFOV) of 194 cm. Time-activity curves (TACs) were generated by delineating volumes of interest (VOIs) of the sourced organs using PMOD software. Tracer kinetics and cumulative organ activities were calculated, and absorbed doses were calculated and estimated using the OLINDA/EXM software.

Results: In the systemic TAC analysis of ¹¹C-CFT, several unique types of distribution patterns were obtained among several major organs, including a "Fast-in Fast-out" pattern in the kidneys, lungs, spleen, and thyroid, a "Fast-in Slow-out" curve in the heart wall, a "Slow-in Slow-out" mode in the liver, a "Low-level extending" pattern in the whole brain and muscle, and a "Slow-in to plateau" trend in the striatum and bone. The effective dose of ¹¹C-CFT was calculated to be 2.83E-03 mSv/MBq, which is only one-third of the literature value measured by the conventional method. Moreover, this dose is much lower compared to all other doses of DAT radioligands used in PET imaging.

Conclusion: This study is a pioneering application of total-body PET/CT to ¹¹C-CFT dynamic imaging. Our results confirmed that ¹¹C-CFT has a favorable total body biodistribution, an extremely low internal radiation dose, and high imaging quality, making it suitable for reasonable PD diagnosis in patients requiring multiple follow-up examinations.

Keywords: 11C-CFT; dopamine transporter; effective dose; time-activity curve; total-body PET/CT.

Grants and funding

This work was supported by the National Key R&D Program of China (No. 2021YFF0701900), the National Natural Science Foundation of China (No. 82171972), and the Clinical Research Plan of the Shanghai Hospital Development Center (No. 16CR2020A).