神经内分泌肿瘤的一日双示踪剂检查：低活度大视野PET成像的真正优势

One-day dual-tracer examination in neuroendocrine neoplasms: a real advantage of low activity LAFOV PET imaging.

作者信息

Calderón Eduardo, Kiefer Lena S, Schmidt Fabian P, Lan Wenhong, Brendlin Andreas S, Reinert Christian P, Singer Stephan, Reischl Gerald, Hinterleitner Martina, Dittmann Helmut, la Fougère Christian, Trautwein Nils F

机构信息

Nuclear Medicine and Clinical Molecular Imaging, University Hospital Tuebingen, Otfried-Mueller-Str. 14, 72076, Tuebingen, Germany.

Werner Siemens Imaging Center, Preclinical Imaging and Radiopharmacy, Eberhard-Karls University, Roentgenweg 13, 72076, Tuebingen, Germany.

出版信息

Eur J Nucl Med Mol Imaging. 2025 Jun;52(7):2463-2476. doi: 10.1007/s00259-025-07073-w. Epub 2025 Jan 30.

DOI:10.1007/s00259-025-07073-w

PMID:39883139

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12119714/

Abstract

PURPOSE

Somatostatin receptor (SSTR)-PET is crucial for effective treatment stratification of neuroendocrine neoplasms (NENs). In highly proliferating or poorly differentiated NENs, dual-tracer approaches using additional [F]FDG PET can effectively identify SSTR-negative disease, usually requiring separate imaging sessions. We evaluated the feasibility of a one-day dual-tracer imaging protocol with a low activity [F]FDG PET followed by an SSTR-PET using the recently introduced [F]SiFAlin-TATE tracer in a long axial field-of-view (LAFOV) PET/CT scanner and its implications in patient management.

METHODS

Twenty NEN patients were included in this study. Initially, a low activity [F]FDG PET was performed (0.5 ± 0.01 MBq/kg; PET scan 60 min p.i.). After 4.2 ± 0.09 h after completion of the [F]FDG PET, a standard activity of [F]SiFAlin-TATE was administered (3.0 MBq/kg; PET scan 90 min p.i.). To ensure the quantification accuracy of the second scan, we evaluated the potential impact of residual [F]FDG activity by segmenting organs with minimal physiological SSTR-tracer uptake, such as the brain and myocardium, and assessing the activity concentrations (ACTs) of tumor lesions. Residual tumor lesion ACTs of [F]FDG were calculated by factoring fluorine-18 decay, identifying a maximum residual ACT of 15% (R15%). To account for increased [F]FDG trapping over time, higher residual ACTs of 20% (R20%) were considered. These simulated [F]FDG ACTs were compared with those measured in the second PET scan with [F]SiFAlin-TATE. The influence of the dual-tracer PET/CT results on therapeutic strategies was evaluated.

RESULTS

[F]FDG cerebral uptake significantly decreased in the subsequent SSTR-PET (mean uptake [F]FDG: SUV 6.0 ± 0.4; mean uptake in [F]SiFAlin-TATE PET: SUV 0.2 ± 0.01; p < 0.0001); with similar results recorded for the myocardium. Simulated residual [F]FDG ACTs represented only a minimal percentage of ACTs measured in the tumor lesions from the second PET scan (R15%: mean 5.2 ± 0.9% and R20%: mean 6.8 ± 1.2%), indicating only minimal residual activity of [F]FDG that might interfere with the second PET scan using [F]SiFAlin-TATE and preserved semi-quantification of the latter. Dual-tracer PET/CT findings directly influenced changes in therapy plans in eleven (55%) of the examined patients.

CONCLUSION

LAFOV PET scanners enable a one-day dual-tracer protocol, providing diagnostic image quality while preserving the semi-quantification of two F-labeled radiotracers, potentially simplifying the assessment of tumor biology and improving the clinical patient management while reducing logistical challenges. Additionally, low-activity PET imaging facilitates one-day dual-tracer PET examinations.

摘要

目的

生长抑素受体（SSTR）-PET对于神经内分泌肿瘤（NENs）的有效治疗分层至关重要。在高增殖性或低分化NENs中，使用额外的[F]FDG PET的双示踪剂方法可以有效识别SSTR阴性疾病，通常需要单独的成像检查。我们评估了在长轴向视野（LAFOV）PET/CT扫描仪中采用低活度[F]FDG PET随后进行SSTR-PET（使用最近引入的[F]SiFAlin-TATE示踪剂）的一日双示踪剂成像方案的可行性及其对患者管理的影响。

方法

本研究纳入了20例NEN患者。首先，进行低活度[F]FDG PET检查（0.5±0.01 MBq/kg；静脉注射后PET扫描60分钟）。在[F]FDG PET检查完成后4.2±0.09小时，给予标准活度的[F]SiFAlin-TATE（3.0 MBq/kg；静脉注射后PET扫描90分钟）。为确保第二次扫描的定量准确性，我们通过分割生理SSTR示踪剂摄取极少的器官（如脑和心肌）并评估肿瘤病变的活度浓度（ACTs），来评估残留[F]FDG活度的潜在影响。通过考虑氟-18衰变计算[F]FDG的残留肿瘤病变ACTs，确定最大残留ACT为15%（R15%）。为考虑[F]FDG随时间摄取增加的情况，还考虑了20%的更高残留ACT（R20%）。将这些模拟的[F]FDG ACTs与第二次用[F]SiFAlin-TATE进行的PET扫描中测得的ACTs进行比较。评估双示踪剂PET/CT结果对治疗策略的影响。

结果

在随后的SSTR-PET中，[F]FDG脑摄取显著降低（[F]FDG平均摄取：SUV 6.0±0.4；[F]SiFAlin-TATE PET平均摄取：SUV 0.2±0.01；p<0.0001）；心肌的结果类似。模拟的残留[F]FDG ACTs仅占第二次PET扫描肿瘤病变中测得ACTs的极小百分比（R15%：平均5.2±0.9%，R20%：平均6.8±1.2%），表明[F]FDG的残留活度极小，可能不会干扰使用[F]SiFAlin-TATE的第二次PET扫描，并保留了后者的半定量分析。双示踪剂PET/CT结果直接影响了11例（55%）受检患者的治疗计划变化。

结论

LAFOV PET扫描仪可实现一日双示踪剂方案，在保留两种F标记放射性示踪剂半定量分析的同时提供诊断图像质量，可能简化肿瘤生物学评估并改善临床患者管理，同时减少后勤挑战。此外，低活度PET成像有助于一日双示踪剂PET检查。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6404/12119714/1675bc53b566/259_2025_7073_Fig1_HTML.jpg

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神经内分泌肿瘤的一日双示踪剂检查：低活度大视野PET成像的真正优势

One-day dual-tracer examination in neuroendocrine neoplasms: a real advantage of low activity LAFOV PET imaging.

作者信息

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METHODS

RESULTS

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结论

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