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18F-氟胸苷在恶性脑肿瘤中的动力学

18F-fluorothymidine kinetics of malignant brain tumors.

作者信息

Schiepers Christiaan, Chen Wei, Dahlbom Magnus, Cloughesy Timothy, Hoh Carl K, Huang Sung-Cheng

机构信息

Department of Molecular and Medical Pharmacology, David Geffen School of Medicine, University of California, AR-144 CHS 10833 Le Conte Avenue, Los Angeles, CA 90095-6942, USA.

出版信息

Eur J Nucl Med Mol Imaging. 2007 Jul;34(7):1003-11. doi: 10.1007/s00259-006-0354-5. Epub 2007 Feb 13.

DOI:10.1007/s00259-006-0354-5

PMID:17295039

Abstract

PURPOSE

18F-labeled deoxy-fluorothymidine (FLT), a marker of cellular proliferation, has been used in PET tumor imaging. Here, the FLT kinetics of malignant brain tumors were investigated.

METHODS

Seven patients with high-grade tumors and two patients with metastases had 12 studies. After 1.5 MBq/kg 18F-FLT had been administered intravenously, dynamic PET studies were acquired for 75 min. Images were reconstructed with iterative algorithms, and corrections applied for attenuation and scatter. Parametric images were generated with factor analysis, and vascular input and tumor output functions were derived. Compartmental models were used to estimate the rate constants.

RESULTS

The standard three-compartment model appeared appropriate to describe 18F-FLT uptake. Corrections for blood volume, metabolites, and partial volume were necessary. Kinetic parameters were correlated with tumor pathology and clinical follow-up data. Two groups could be distinguished: lesions that were tumor predominant (TumP) and lesions that were treatment change predominant (TrcP). Both groups had a widely varying k1 (transport across the damaged BBB, range 0.02-0.2). Group TrcP had a relatively low k3 (phosphorylation rate, range 0.017-0.027), whereas k3 varied sevenfold in group TumP (range 0.015-0.11); the k3 differences were significant (p < 0.01). The fraction of transported FLT that is phosphorylated [k3/(k2+k3)] was able to separate the two groups (p < 0.001).

CONCLUSION

A three-compartment model with blood volume, metabolite, and partial volume corrections could adequately describe 18F-FLT kinetics in malignant brain tumors. Patients could be distinguished as having: (1) tumor-predominant or (2) treatment change-predominant lesions, with significantly different phosphorylation rates.

摘要

目的

18F 标记的脱氧氟胸苷（FLT）作为细胞增殖标志物，已用于正电子发射断层显像（PET）肿瘤成像。在此，对恶性脑肿瘤的 FLT 动力学进行了研究。

方法

7 例高级别肿瘤患者和 2 例转移瘤患者共进行了 12 项研究。静脉注射 1.5 MBq/kg 的 18F-FLT 后，进行 75 分钟的动态 PET 研究。图像采用迭代算法重建，并进行衰减和散射校正。通过因子分析生成参数图像，并推导血管输入和肿瘤输出函数。采用房室模型估计速率常数。

结果

标准三室模型似乎适合描述 18F-FLT 的摄取。需要进行血容量、代谢物和部分容积校正。动力学参数与肿瘤病理及临床随访数据相关。可分为两组：以肿瘤为主的病变（TumP）和以治疗变化为主的病变（TrcP）。两组的 k1（跨受损血脑屏障的转运，范围 0.02 - 0.2）差异很大。TrcP 组的 k3（磷酸化率，范围 0.017 - 0.027）相对较低，而 TumP 组的 k3 变化了 7 倍（范围 0.015 - 0.11）；k3 差异具有显著性（p < 0.01）。磷酸化的转运 FLT 分数[k3/(k2 + k3)]能够区分两组（p < 0.001）。

结论

具有血容量、代谢物和部分容积校正的三室模型能够充分描述恶性脑肿瘤中 18F-FLT 的动力学。患者可分为：（1）以肿瘤为主或（2）以治疗变化为主的病变，其磷酸化率有显著差异。

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18F-氟胸苷在恶性脑肿瘤中的动力学

18F-fluorothymidine kinetics of malignant brain tumors.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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