用于测定大鼠动脉输入函数的在线采血系统的开发与性能测试。

Development and performance test of an online blood sampling system for determination of the arterial input function in rats.

作者信息

Roehrbacher Friedrich, Bankstahl Jens P, Bankstahl Marion, Wanek Thomas, Stanek Johann, Sauberer Michael, Muellauer Julia, Schroettner Thales, Langer Oliver, Kuntner Claudia

机构信息

Radiation Safety and Applications, Seibersdorf Laboratories GmbH, Seibersdorf, 2444, Austria.

Department of Nuclear Medicine, Hannover Medical School, Hannover, 30625, Germany.

出版信息

EJNMMI Phys. 2015 Dec;2(1):1. doi: 10.1186/s40658-014-0106-8. Epub 2015 Jan 14.

DOI:10.1186/s40658-014-0106-8

PMID:26501803

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4545758/

Abstract

BACKGROUND

For positron emission tomography (PET) kinetic modelling, an accurate determination of the arterial input function is required. In this study, a blood sampling system was developed and tested using different radiotracers in rats.

METHODS

The detector consists of pairs of lutetium yttrium oxyorthosilicate (LYSO) detectors, photomultiplier tubes and lead shield assembled within a steel casing working in coincidence mode. Rats were cannulated with microtubes in the femoral artery and vein for arterial blood sampling as well as administration of the PET tracers. Connected PTFE microtubes were centred between the LYSO crystals using a special holder. To enhance sensitivity, three layers with two coils were used. A flexible tube pump was used to ensure a constant blood flow. Performance of the detector was assessed with [(18)F]fludeoxyglucose (FDG), [(18)F]ciprofloxacin, (R)-[(11)C]verapamil, [(11)C]tariquidar, [(11)C]mephobarbital and [(11)C]MC113. Obtained input function curves were compared with manual samples drawn every 5 s during the first 3 min and further on at 5, 10, 20, 30, 40, 50 and 60 min after radiotracer injection. After manual sampling, an arterio/venous shunt was established. Shape and area-under-the-curve (AUC; Bq/μl*h) of the input functions were evaluated.

RESULTS

The developed detector system provided an absolute sensitivity of 6.5%. Maximum peak values agreed well between manual samples and the detector with a mean difference of -0.4% ± 7.0% (max 12.0%, min -9.9%). AUC values also exhibited an excellent correlation (R = 0.996) between manual sampling and detector measurements with a mean difference of 9.3% ± 9.7% (max 24.1%, min -3.2%). The system was able to measure peak blood activity concentration levels of 110 to 2,000 Bq/μl which corresponds to injected activities from 5.5 to 100 MBq depending on the used radiotracer, applied volume and weight of the animal.

CONCLUSIONS

This study demonstrates that the developed blood sampling system can be used for in vivo small animal PET studies in rats in a reliable way. The usage of the systems enhances the accuracy of the input curve as handling of small blood samples especially with low activity (as for C-11) is prone to measurement errors. Additionally, the radiation dose of the experimenters can be reduced, as it is not required anymore to continuously draw samples where the personal is in close contact to the radioactive animals and blood.

摘要

背景

对于正电子发射断层扫描（PET）动力学建模，需要准确测定动脉输入函数。在本研究中，开发了一种血液采样系统，并在大鼠中使用不同的放射性示踪剂进行了测试。

方法

该探测器由成对的硅酸钇镥（LYSO）探测器、光电倍增管和组装在钢壳内以符合模式工作的铅屏蔽组成。大鼠通过在股动脉和静脉中插入微管进行动脉血采样以及PET示踪剂的给药。连接的聚四氟乙烯微管用特殊支架置于LYSO晶体之间。为提高灵敏度，使用了三层带两个线圈的结构。使用柔性管泵确保恒定的血流。用[¹⁸F]氟脱氧葡萄糖（FDG）、[¹⁸F]环丙沙星、（R）-[¹¹C]维拉帕米、[¹¹C]他林洛尔、[¹¹C]美索比妥和[¹¹C]MC113评估探测器的性能。将获得的输入函数曲线与在放射性示踪剂注射后前3分钟每5秒采集的手动样本进行比较，并在随后的5、10、20、30、40、50和60分钟继续比较。手动采样后，建立动静脉分流。评估输入函数的形状和曲线下面积（AUC；Bq/μl*h）。

结果

开发的探测器系统的绝对灵敏度为6.5%。手动样本和探测器之间的最大峰值一致，平均差异为-0.4%±7.0%（最大值12.0%，最小值-9.9%）。AUC值在手动采样和探测器测量之间也表现出极好的相关性（R = 0.996），平均差异为9.3%±9.7%（最大值24.1%，最小值-3.2%）。该系统能够测量110至2000 Bq/μl的峰值血活度浓度水平，这取决于所用的放射性示踪剂、注射体积和动物体重，对应于5.5至100 MBq的注射活度。

结论

本研究表明，开发的血液采样系统可可靠地用于大鼠体内小动物PET研究。该系统的使用提高了输入曲线的准确性，因为处理小血样尤其是低活度血样（如¹¹C标记的）容易出现测量误差。此外，实验人员的辐射剂量可以降低，因为不再需要持续采集样本，从而避免了人员与放射性动物和血液的密切接触。

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用于测定大鼠动脉输入函数的在线采血系统的开发与性能测试。

Development and performance test of an online blood sampling system for determination of the arterial input function in rats.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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