Department of Nuclear Medicine, Hong Kong Sanatorium and Hospital, University of Hong Kong, Hong Kong.
Mol Imaging. 2012 Jun;11(3):229-39.
[11C]Acetate (ACT) positron emission tomography/computed tomography (PET/CT) is useful in the detection of hepatocellular carcinoma (HCC). This study aimed to evaluate whether [18F]fluoroacetate (FAC) could be an alternative analogue of [11C]ACT for the diagnosis of HCC. [18F]FAC was synthesized using the precursor t-butyl 2-(methanesulfonyloxy)ethanoate. Five volunteer patients with known HCC were recruited after consent. Whole-body [18F]FAC PET/CT was performed at 20 minutes and 1 hour postinjection and compared to [11C]ACT PET/CT at 20 minutes postinjection to assess biodistribution and tumor uptake characteristics. Qualitative and semiquantitative analyses were performed with statistical correlations on the physiologic organs of accumulation and HCC lesions for both tracers. [18F]FAC was obtained with 99% radiochemical purity, and the reaction yield was 16.0% with 1-hour synthesis time. The biodistribution of [18F]FAC on PET/CT was significantly different from that of [11C]ACT (p < .05) by the lack of preferential uptake in any specific organ, particularly the pancreas, resembling the pattern of blood-pool retention although partly metabolized via the bowel. There was no significant defluorination, and none of the [11C]ACT-avid HCC lesions showed increased [18F]FAC activity. These were different from the results reported on other species. [18F]FAC may not be a potential alternative tracer for [11C]ACT in PET/CT evaluation of HCC in human subjects.
[11C]乙酸盐(ACT)正电子发射断层扫描/计算机断层扫描(PET/CT)可用于检测肝细胞癌(HCC)。本研究旨在评估[18F]氟乙酸盐(FAC)是否可作为[11C]ACT 的替代类似物用于 HCC 的诊断。[18F]FAC 采用叔丁基 2-(甲磺酰氧基)乙氧基乙酸酯前体合成。在知情同意后,招募了 5 名已知患有 HCC 的志愿者患者。在注射后 20 分钟和 1 小时进行全身[18F]FAC PET/CT,并与注射后 20 分钟的[11C]ACT PET/CT 进行比较,以评估生物分布和肿瘤摄取特征。对两种示踪剂的生理性积聚器官和 HCC 病变进行定性和半定量分析,并进行统计学相关性分析。[18F]FAC 的放射化学纯度达到 99%,1 小时合成时间的产率为 16.0%。PET/CT 上[18F]FAC 的生物分布与[11C]ACT 明显不同(p <.05),因为没有任何特定器官优先摄取,特别是胰腺,类似于血池保留模式,尽管部分通过肠道代谢。没有明显的脱氟作用,并且没有任何[11C]ACT 高摄取的 HCC 病变显示出增加的[18F]FAC 活性。这与在其他物种上报告的结果不同。[18F]FAC 可能不是人肝细胞癌 PET/CT 评估中[11C]ACT 的潜在替代示踪剂。
