用于小鼠剂量学应用的混合 microPET 成像：用于加速剂量学的动态 microPET 成像中活性定量的改进，应用于 6-[18F]氟-L-多巴和 2-[18F]氟-L-酪氨酸。

Hybrid microPET imaging for dosimetric applications in mice: improvement of activity quantification in dynamic microPET imaging for accelerated dosimetry applied to 6-[18 F]fluoro-L-DOPA and 2-[18 F]fluoro-L-tyrosine.

机构信息

Cyclotron Research Centre, University of Liege, Allée du 6 Août, Building B30, Sart Tilman, 4000, Liege, Belgium.

出版信息

Mol Imaging Biol. 2014 Jun;16(3):383-94. doi: 10.1007/s11307-013-0706-z.

DOI:10.1007/s11307-013-0706-z

PMID:24249641

Abstract

PURPOSE

Dynamic microPET imaging has advantages over traditional organ harvesting, but is prone to quantification errors in small volumes. Hybrid imaging, where microPET activities are cross-calibrated using post scan harvested organs, can improve quantification. Organ harvesting, dynamic imaging and hybrid imaging were applied to determine the human and mouse radiation dosimetry of 6-[18 F]fluoro-L-DOPA and 2-[18 F]fluoro-L-tyrosine and compared.

PROCEDURES

Two-hour dynamic microPET imaging was performed with both tracers in four separate mice for 18 F-FDOPA and three mice for 18 F-FTYR. Organ harvesting was performed at 2, 5, 10, 30, 60 and 120 min post tracer injection with n = 5 at each time point for 18 F-FDOPA and n = 3 at each time point for 18 F-FTYR. Human radiation dosimetry projected from animal data was calculated for the three different approaches for each tracer using OLINDA/EXM. S-factors for the MOBY phantom were used to calculate the animal dosimetry.

RESULTS

Correlations between dose estimates based on organ harvesting and imaging was improved from r = 0.997 to r = 0.999 for 18 F-FDOPA and from r = 0.985 to r = 0.996 (p < 0.0001 for all) for 18 F-FTYR by using hybrid imaging.

CONCLUSION

Hybrid imaging yields comparable results to traditional organ harvesting while partially overcoming the limitations of pure imaging. It is an advantageous technique in terms of number of animals needed and labour involved.

摘要

目的

动态 microPET 成像相对于传统的器官采集具有优势，但在小体积中容易出现定量误差。杂交成像，即使用后扫描采集的器官对 microPET 活性进行交叉校准，可以提高定量准确性。本研究应用器官采集、动态成像和杂交成像来确定 6-[18 F]氟-L-多巴和 2-[18 F]氟-L-酪氨酸的人体和小鼠辐射剂量，并进行了比较。

方法

对 4 只单独的小鼠进行了 2 小时的动态 microPET 成像，分别用两种示踪剂进行 18 F-FDOPA 成像和 3 只小鼠进行 18 F-FTYR 成像。在注射示踪剂后 2、5、10、30、60 和 120 分钟时进行器官采集，对于 18 F-FDOPA，每个时间点有 5 只动物，对于 18 F-FTYR，每个时间点有 3 只动物。使用 OLINDA/EXM 计算了从动物数据预测的三种不同方法的人体辐射剂量。使用 MOBY 体模的 S 因子计算了动物的剂量。

结果

对于 18 F-FDOPA，通过杂交成像，基于器官采集和成像的剂量估计之间的相关性从 r=0.997 提高到 r=0.999（p<0.0001），对于 18 F-FTYR，从 r=0.985 提高到 r=0.996（p<0.0001）。

结论

杂交成像产生的结果与传统的器官采集相当，同时部分克服了纯成像的局限性。从所需动物数量和工作量的角度来看，它是一种有利的技术。

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用于小鼠剂量学应用的混合 microPET 成像：用于加速剂量学的动态 microPET 成像中活性定量的改进，应用于 6-[18F]氟-L-多巴和 2-[18F]氟-L-酪氨酸。

Hybrid microPET imaging for dosimetric applications in mice: improvement of activity quantification in dynamic microPET imaging for accelerated dosimetry applied to 6-[18 F]fluoro-L-DOPA and 2-[18 F]fluoro-L-tyrosine.

机构信息

出版信息

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PROCEDURES

RESULTS

CONCLUSION

目的

方法

结果

结论

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