cGMP compliant one-step, one-pot automated [18F]FBnTP production for clinical imaging of mitochondrial activity

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2024-06-27 DOI:10.1186/s41181-024-00274-y
Mai Lin, Cong-Dat Pham, Robert T. Ta, H. Charles Manning
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Abstract

Background

4-[18F]fluorobenzyl-triphenylphosphonium ([18F]FBnTP) is a lipophilic cation PET tracer. The cellular uptake of [18F]FBnTP is correlated with oxidative phosphorylation by mitochondria, which has been associated with multiple critical diseases. To date, [18F]FBnTP has been successfully applied for imaging myocardial perfusion, assessment of severity of coronary artery stenosis, delineation of the ischemic area after transient coronary occlusion, and detection/quantification of apoptosis in various animal models. Recent preclinical and clinical studies have also expanded the possibilities of using [18F]FBnTP in oncological diagnosis and therapeutic monitoring. However, [18F]FBnTP is typically prepared through a tediously lengthy four-step, three-pot reaction and required multiple synthesizer modules; Thus, such an approach remains a challenge for this promising radiopharmaceutical to be implemented for routine clinical studies. Herein, we report an optimized one-step, one-pot automated approach to produce [18F]FBnTP through a single standard commercially-available radiosynthesizer that enables centralized production for clinical use.

Results

The fully automated production of [18F]FBnTP took less than 55 min with radiochemical yields ranging from 28.33 ± 13.92% (non-decay corrected), apparent molar activity of 69.23 ± 45.62 GBq/µmol, and radiochemical purities of 99.79 ± 0.41%. The formulated [18F]FBnTP solution was determined to be sterile and colorless with a pH of 4.0–6.0. Our data has indicated no observable radiolysis after 8 h from the time of final product formulation and maximum assay of 7.88 GBq.

Conclusions

A simplified and cGMP-compliant radiosynthesis of [18F]FBnTP has been established on the commercially available synthesizer in high activity concentration and radiochemical purity. While the preclinical and clinical studies using [18F]FBnTP PET are currently underway, the automated approaches reported herein facilitate clinical adoption of this radiotracer and warrant centralized production of [18F]FBnTP for imaging multiple patients.

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符合 cGMP 标准的一步法、一锅式自动[18F]FBnTP 生产,用于线粒体活性的临床成像。
背景:4-[18F]氟苄基三苯基膦([18F]FBnTP)是一种亲脂性阳离子 PET 示踪剂。细胞对[18F]FBnTP的摄取与线粒体的氧化磷酸化有关,而线粒体的氧化磷酸化与多种危重疾病相关。迄今为止,[18F]FBnTP 已成功应用于各种动物模型的心肌灌注成像、冠状动脉狭窄严重程度评估、一过性冠状动脉闭塞后缺血区域的划分以及细胞凋亡的检测/量化。最近的临床前和临床研究也拓展了将[18F]FBnTP 用于肿瘤诊断和治疗监测的可能性。然而,[18F]FBnTP 的制备通常需要经过繁琐冗长的四步三锅反应,并且需要多个合成模块;因此,这种方法仍然是将这种前景广阔的放射性药物用于常规临床研究的一个挑战。在此,我们报告了一种经过优化的一步法、一锅法自动化生产[18F]FBnTP的方法,只需一台标准的市售放射合成仪即可实现临床使用的集中生产:全自动生产[18F]FBnTP的时间不到55分钟,放射化学收率为28.33 ± 13.92%(非衰变校正),表观摩尔活度为69.23 ± 45.62 GBq/µmol,放射化学纯度为99.79 ± 0.41%。经测定,配制的[18F]FBnTP 溶液无菌、无色,pH 值为 4.0-6.0。我们的数据显示,从最终产品配制开始,经过 8 小时后,没有观察到放射性分解,最大测定值为 7.88 GBq:结论:[18F]FBnTP 的简化和符合 cGMP 标准的放射合成已在高活性浓度和放射化学纯度的市售合成器上完成。虽然目前正在进行使用[18F]FBnTP PET 的临床前和临床研究,但本文所报告的自动化方法有助于这种放射性示踪剂在临床上的应用,并保证了[18F]FBnTP 的集中化生产,以便对多名患者进行成像。
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来源期刊
CiteScore
7.20
自引率
8.70%
发文量
30
审稿时长
5 weeks
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