用于肿瘤缺氧的[F]FMISO正电子发射断层显像的定量分析：建模结果与免疫组织化学的相关性

Quantitative Analysis of [F]FMISO PET for Tumor Hypoxia: Correlation of Modeling Results with Immunohistochemistry.

作者信息

Shi Kuangyu, Bayer Christine, Astner Sabrina T, Gaertner Florian C, Vaupel Peter, Schwaiger Markus, Huang Sung-Cheng, Ziegler Sibylle I

机构信息

Department of Nuclear Medicine, Klinikum rechts der Isar, Technische Universität München, Ismaningerstrasse. 22, 81675, Munich, Germany.

Department of Radiooncology and Radiotherapy, Klinikum rechts der Isar, Technische Universität München, Munich, Germany.

出版信息

Mol Imaging Biol. 2017 Feb;19(1):120-129. doi: 10.1007/s11307-016-0975-4.

DOI:10.1007/s11307-016-0975-4

PMID:27379986

Abstract

PURPOSE

Quantitative evaluation of tumor hypoxia based on H-1-(3-[F]fluoro-2-hydroxypropyl)-2-nitroimidazole ([F]FMISO) positron emission tomography (PET) can deliver important information for treatment planning in radiotherapy. However, the merits and limitations of different analysis methods in revealing the underlying physiological feature are not clear. This study aimed to assess these quantitative analysis methods with the support of immunohistological data.

PROCEDURES

Sixteen nude mice bearing xenografted human squamous cell carcinomas (FaDu or CAL-33) were scanned using 2-h dynamic [F]FMISO PET. Tumors were resected and sliced, and the hypoxia marker pimonidazole was immunostained followed by H&E staining. The pimonidazole signal was segmented using a k-means clustering algorithm, and the hypoxic fraction (HF) was calculated as the hypoxic area/viable tumor-tissue-area ratio pooled over three tissue slices from the apical, center, and basal layers. PET images were analyzed using various methods including static analysis [standard uptake value (SUV), tumor-to-blood ratio (T/B), tumor-to-muscle ratio (T/M)] and kinetic modeling (Casciari αk , irreversible and reversible two-tissue compartment k , Thorwarth w k , Patlak K , Logan V , Cho K), and correlated with HF.

RESULTS

No significant correlation was found for static analysis. A significant correlation between k of the irreversible two-tissue compartment model and HF was observed (r = 0.61, p = 0.01). The correlation between HF and αk of the Casciari model could be improved through reducing local minima by testing more sets of initial values (r = 0.59, p = 0.02) or by reducing the model complexity by fixing three parameters (r = 0.63, p = 0.0008).

CONCLUSIONS

With support of immunohistochemistry data, this study shows that various analysis methods for [F]FMISO PET perform differently for assessment of tumor hypoxia. A better fitting quality does not necessarily mean a higher physiological correlation. Hypoxia PET analysis needs to consider both the mathematical stability and physiological fidelity. Based on the results of this study, preference should be given to the irreversible two-tissue compartment model as well as the Casciari model with reduced parameters.

摘要

目的

基于H-1-(3-[F]氟-2-羟丙基)-2-硝基咪唑（[F]FMISO）正电子发射断层扫描（PET）对肿瘤缺氧进行定量评估可为放射治疗的治疗计划提供重要信息。然而，不同分析方法在揭示潜在生理特征方面的优缺点尚不清楚。本研究旨在在免疫组织学数据的支持下评估这些定量分析方法。

方法

对16只荷人鳞状细胞癌（FaDu或CAL-33）异种移植瘤的裸鼠进行2小时动态[F]FMISO PET扫描。切除肿瘤并切片，对缺氧标志物匹莫硝唑进行免疫染色，然后进行苏木精-伊红（H&E）染色。使用k均值聚类算法分割匹莫硝唑信号，并计算缺氧分数（HF），即从顶端、中心和基底层的三个组织切片中汇总的缺氧面积/存活肿瘤组织面积比。使用包括静态分析[标准摄取值（SUV）、肿瘤与血液比值（T/B）、肿瘤与肌肉比值（T/M）]和动力学建模（Casciariαk、不可逆和可逆双组织房室k、Thorwarth wk、Patlak K、Logan V、Cho K）在内的各种方法分析PET图像，并与HF进行相关性分析。

结果

静态分析未发现显著相关性。观察到不可逆双组织房室模型的k与HF之间存在显著相关性（r = 0.61，p = 0.01）。通过测试更多组初始值减少局部最小值（r = 0.59，p = 0.02）或通过固定三个参数降低模型复杂性（r = 0.63，p = 0.0008），可提高Casciari模型的HF与αk之间的相关性。

结论

在免疫组织化学数据的支持下，本研究表明，[F]FMISO PET的各种分析方法在评估肿瘤缺氧方面表现不同。较好的拟合质量不一定意味着更高的生理相关性。缺氧PET分析需要同时考虑数学稳定性和生理保真度。基于本研究结果，应优先选择不可逆双组织房室模型以及参数减少的Casciari模型。

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用于肿瘤缺氧的[F]FMISO正电子发射断层显像的定量分析：建模结果与免疫组织化学的相关性

Quantitative Analysis of [F]FMISO PET for Tumor Hypoxia: Correlation of Modeling Results with Immunohistochemistry.

作者信息

机构信息

出版信息

PURPOSE

PROCEDURES

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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