儿童和成人患者中[⁸F]mFBG PET-CT的SUV标准化及参考组织选择

SUV normalisation and reference tissue selection for [⁸F]mFBG PET-CT in paediatric and adult patients.

作者信息

Samim Atia, Suurd Diederik P D, van Rooij Rob, van Noesel Max M, Lam Marnix G E H, Braat Arthur J A T, Tolboom Nelleke, Borgwardt Lise, Tytgat Godelieve A M, de Keizer Bart

机构信息

Princess Máxima Center for Pediatric Oncology, Utrecht, The Netherlands.

Department of Nuclear Medicine and Radiology, University Medical Center Utrecht, Utrecht, The Netherlands.

出版信息

Eur J Nucl Med Mol Imaging. 2025 Apr 2. doi: 10.1007/s00259-025-07242-x.

DOI:10.1007/s00259-025-07242-x

PMID:40172693

Abstract

PURPOSE

Meta-[⁸F]fluorobenzylguanidine ([⁸F]mFBG) PET-CT is a novel imaging modality for norepinephrine transporter-expressing tumours, such as neuroblastoma and phaeochromocytoma, enabling quantitative assessment and improved diagnostic accuracy compared to meta-[I]iodobenzylguanidine ([I]mIBG) scintigraphy. This study aims to: 1) Identify the optimal standardised uptake value (SUV) normalisation method: body weight (BW) or lean body mass (LBM); 2) Determine the most stable reference tissue with SUV uptake below pathological levels.

METHODS

We analysed 63 [⁸F]mFBG PET-CTs from 35 patients (20 paediatric neuroblastoma, 15 adult phaeochromocytoma). SUV was measured in the liver, blood pool, bone marrow, and muscle, normalised using BW (SUVBW), LBM via James (SUVLBMJames), and LBM via Janmahasatian (SUVLBMJanma). Variability of SUVs and their correlation with weight were assessed.

RESULTS

LBM-based normalisation reduced SUV variability compared to BW-based normalisation. Bone marrow demonstrated the lowest variability and least weight dependency (r 0.45 for SUVBW versus 0.31 for SUVLBMJanma). The liver had the highest SUVs, increasing the risk of false negatives if used as reference tissue, while the blood pool had the lowest SUVs, raising the risk of false positives. Muscle showed relatively stable SUVs with increasing weight but higher variability than bone marrow.

CONCLUSION

LBM-based SUV normalisation reduces weight dependency for [⁸F]mFBG PET-CT. Bone marrow is the most reliable reference tissue due to its low variability and balanced SUVs, while muscle may serve as an alternative if diffuse bone marrow uptake is present. These findings support standardising LBM-adjusted SUV methods and using bone marrow as the primary reference tissue to enhance diagnostic accuracy.

CLINICAL TRIAL REGISTRATION

EudraCT Number: 2019-003713-33; EU Clinical Trials Number: 2024-513622-35-00.

摘要

目的

间位[⁸F]氟苄胍（[⁸F]mFBG）PET-CT是一种用于检测表达去甲肾上腺素转运体的肿瘤（如神经母细胞瘤和嗜铬细胞瘤）的新型成像方式，与间位[¹²³I]碘苄胍（[¹²³I]mIBG）闪烁扫描相比，它能够进行定量评估并提高诊断准确性。本研究旨在：1）确定最佳的标准化摄取值（SUV）归一化方法：体重（BW）或瘦体重（LBM）；2）确定SUV摄取低于病理水平的最稳定参考组织。

方法

我们分析了35例患者（20例儿童神经母细胞瘤，15例成人嗜铬细胞瘤）的63次[⁸F]mFBG PET-CT检查结果。在肝脏、血池、骨髓和肌肉中测量SUV，并分别使用BW（SUVBW）、通过James公式计算的LBM（SUVLBMJames）和通过Janmahasatian公式计算的LBM（SUVLBMJanma）进行归一化。评估了SUV的变异性及其与体重的相关性。

结果

与基于BW的归一化相比，基于LBM的归一化降低了SUV的变异性。骨髓显示出最低的变异性和最小的体重依赖性（SUVBW的r值为0.45，而SUVLBMJanma的r值为0.31）。肝脏的SUV最高，如果用作参考组织会增加假阴性的风险，而血池的SUV最低，会增加假阳性的风险。肌肉的SUV相对稳定，但随着体重增加变异性高于骨髓。

结论

基于LBM的SUV归一化降低了[⁸F]mFBG PET-CT的体重依赖性。骨髓因其低变异性和平衡的SUV是最可靠的参考组织，而如果存在弥漫性骨髓摄取，肌肉可作为替代参考组织。这些发现支持标准化基于LBM调整后的SUV方法，并使用骨髓作为主要参考组织以提高诊断准确性。

临床试验注册

欧洲临床试验数据库编号：2019-003713-33；欧盟临床试验编号：2024-513622-35-00。

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儿童和成人患者中[⁸F]mFBG PET-CT的SUV标准化及参考组织选择

SUV normalisation and reference tissue selection for [⁸F]mFBG PET-CT in paediatric and adult patients.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

CLINICAL TRIAL REGISTRATION

目的

方法

结果

结论

临床试验注册

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