使用Y-90微球对肝肿瘤进行放射性栓塞后，利用集成式Y-90 PET/MRI基于体素的剂量测定法预测左叶肥大。

Prediction of left lobe hypertrophy with voxel-based dosimetry using integrated Y-90 PET/MRI after radioembolization of liver tumors with Y-90 microspheres.

作者信息

Demir Burak, Soydal Cigdem, Celebioglu Emre Can, Bilgic Mehmet Sadık, Kuru Oz Digdem, Kir Kemal Metin, Kucuk Nuriye Ozlem

机构信息

Sanliurfa Mehmet Akif Inan Education and Research Hospital Department of Nuclear Medicine, Sanliurfa, Turkey.

Ankara University Medical School Department of Nuclear Medicine, Ankara, Turkey.

出版信息

Eur J Nucl Med Mol Imaging. 2025 Apr;52(5):1695-1707. doi: 10.1007/s00259-024-07023-y. Epub 2024 Dec 17.

DOI:10.1007/s00259-024-07023-y

PMID:39688696

Abstract

PURPOSE

The aim of this study was to investigate the relationship between voxel-based dosimetric variables derived from Y-90 PET/MRI and hypertrophy observed in the left lobe after radioembolization and to investigate if there is any difference in hypertrophy induced by glass versus resin microspheres.

METHODS

Voxel-based dosimetry-derived variables and their relationship with the change of the standardized future liver remnant (ΔFLR) was investigated with linear regression models. To compare and evaluate the discriminatory power of the dosimetric variables, ROC analyses were utilized. ΔFLR and kinetic growth rate (KGR) induced with glass and resin microspheres were compared using the Mann-Whitney U test.

RESULTS

In this retrospective study, data of the 40 patients treated with Y-90 microspheres were evaluated. Among the several dosimetric variables, the mean perfused volume normal tissue dose (pDnorm), perfused normal tissue V90 (pV90), and pV100 values for glass microspheres; and the mean whole liver normal tissue dose (Dnorm), pDnorm, whole liver normal tissue V30 (nV30), nV40, and pV40 for resin microspheres had the highest relationship with ΔFLR. In the ROC analysis for glass microspheres, the optimal cut-offs to predict ΔFLR > 5% were 60.55 Gy for Dnorm, 94.21 Gy for pDnorm, 28.07% for pV90, and 24.98% for pV100. For resin microspheres, corresponding values were 23.20 Gy for Dnorm, 37.40 Gy for pDnorm, 31.50% for nV30, 24.50% for nV40, and 43.60% for pV40. No significant difference was observed between glass and resin microsphere-induced median ΔFLR, KGR values and atrophy of the right lobe.

CONCLUSION

Following Y-90 radioembolization therapy with glass and resin microspheres applied to the right lobe of the liver, ΔFLR is correlated with pDnorm and Dnorm, but is also significantly related to various nV and pV values. In addition, the hypertrophy and kinetic growth rates observed with glass and resin microspheres were largely similar.

摘要

目的

本研究旨在探讨源自钇-90正电子发射断层扫描/磁共振成像（Y-90 PET/MRI）的基于体素的剂量学变量与放射性栓塞后左叶观察到的肥大之间的关系，并研究玻璃微球与树脂微球所致肥大是否存在差异。

方法

采用线性回归模型研究基于体素的剂量学衍生变量及其与标准化未来肝脏残余体积变化（ΔFLR）的关系。为比较和评估剂量学变量的鉴别能力，采用了ROC分析。使用曼-惠特尼U检验比较玻璃微球和树脂微球所致的ΔFLR和动力学生长率（KGR）。

结果

在这项回顾性研究中，对40例接受Y-90微球治疗的患者的数据进行了评估。在几个剂量学变量中，玻璃微球的平均灌注体积正常组织剂量（pDnorm）、灌注正常组织V90（pV90）和pV100值；树脂微球的平均全肝正常组织剂量（Dnorm）、pDnorm、全肝正常组织V30（nV30）、nV40和pV40与ΔFLR的相关性最高。在玻璃微球的ROC分析中，预测ΔFLR＞5%的最佳截断值分别为：Dnorm为60.55 Gy，pDnorm为94.21 Gy，pV90为28.07%，pV100为24.98%。对于树脂微球，相应的值分别为：Dnorm为23.20 Gy，pDnorm为37.40 Gy，nV30为31.50%，nV40为24.50%，pV40为43.60%。玻璃微球和树脂微球所致的中位ΔFLR、KGR值及右叶萎缩之间未观察到显著差异。

结论

在将玻璃微球和树脂微球应用于肝右叶的Y-90放射性栓塞治疗后，ΔFLR与pDnorm和Dnorm相关，但也与各种nV和pV值显著相关。此外，玻璃微球和树脂微球观察到的肥大和动力学生长率在很大程度上相似。

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使用Y-90微球对肝肿瘤进行放射性栓塞后，利用集成式Y-90 PET/MRI基于体素的剂量测定法预测左叶肥大。

Prediction of left lobe hypertrophy with voxel-based dosimetry using integrated Y-90 PET/MRI after radioembolization of liver tumors with Y-90 microspheres.

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