铂-195m SPECT 的临床前成像特征和定量分析。

Preclinical imaging characteristics and quantification of Platinum-195m SPECT.

机构信息

Department of Nuclear Medicine, The Netherlands Cancer Institute (NKI-AVL), Plesmanlaan 121, 1066 CX, Amsterdam, The Netherlands.

Nuclear Research and Consultancy Group (NRG), Petten, The Netherlands.

出版信息

Eur J Nucl Med Mol Imaging. 2017 Aug;44(8):1347-1354. doi: 10.1007/s00259-017-3643-2. Epub 2017 Feb 11.

DOI:10.1007/s00259-017-3643-2

PMID:28190123

Abstract

AIMS

In vivo biodistribution imaging of platinum-based compounds may allow better patient selection for treatment with chemo(radio)therapy. Radiolabeling with Platinum-195m (Pt) allows SPECT imaging, without altering the chemical structure or biological activity of the compound. We have assessed the feasibility of Pt SPECT imaging in mice, with the aim to determine the image quality and accuracy of quantification for current preclinical imaging equipment.

METHODS

Enriched (>96%) Pt was irradiated in the High Flux Reactor (HFR) in Petten, The Netherlands (NRG). A 0.05 M HCl Pt-solution with a specific activity of 33 MBq/mg was obtained. Image quality was assessed for the NanoSPECT/CT (Bioscan Inc., Washington DC, USA) and U-SPECT/CT (MILabs BV, Utrecht, the Netherlands) scanners. A radioactivity-filled rod phantom (rod diameter 0.85-1.7 mm) filled with 1 MBq Pt was scanned with different acquisition durations (10-120 min). Four healthy mice were injected intravenously with 3-4 MBq Pt. Mouse images were acquired with the NanoSPECT for 120 min at 0, 2, 4, or 24 h after injection. Organs were delineated to quantify Pt concentrations. Immediately after scanning, the mice were sacrificed, and the platinum concentration was determined in organs using a gamma counter and graphite furnace - atomic absorption spectroscopy (GF-AAS) as reference standards.

RESULTS

A 30-min acquisition of the phantom provided visually adequate image quality for both scanners. The smallest visible rods were 0.95 mm in diameter on the NanoSPECT and 0.85 mm in diameter on the U-SPECT. The image quality in mice was visually adequate. Uptake was seen in the kidneys with excretion to the bladder, and in the liver, blood, and intestine. No uptake was seen in the brain. The Spearman correlation between SPECT and gamma counter was 0.92, between SPECT and GF-AAS it was 0.84, and between GF-AAS and gamma counter it was0.97 (all p < 0.0001).

CONCLUSION

Preclinical Pt SPECT is feasible with acceptable tracer doses and acquisition times, and provides good image quality and accurate signal quantification.

摘要

目的

铂类化合物的体内生物分布成像可以更好地选择接受化疗（放化疗）治疗的患者。用铂-195m（Pt）进行放射性标记可以进行 SPECT 成像，而不会改变化合物的化学结构或生物活性。我们评估了 Pt SPECT 成像在小鼠中的可行性，旨在确定当前临床前成像设备的图像质量和定量准确性。

方法

在荷兰 Petten 的高通量反应堆（HFR）中辐照富集（>96%）的 Pt（NRG）。获得 0.05 M HCl Pt 溶液，比活度为 33 MBq/mg。使用 NanoSPECT/CT（Bioscan Inc.，华盛顿特区，美国）和 U-SPECT/CT（MILabs BV，乌得勒支，荷兰）扫描仪评估图像质量。使用放射性填充棒状 phantom（棒直径 0.85-1.7mm），用 1MBq Pt 填充，用不同的采集时间（10-120min）进行扫描。将 4 只健康小鼠静脉注射 3-4MBq Pt。在注射后 0、2、4 或 24 小时，使用 NanoSPECT 对小鼠进行 120min 的图像采集。对器官进行勾画以定量 Pt 浓度。扫描后立即处死小鼠，使用伽马计数器和石墨炉 - 原子吸收光谱法（GF-AAS）作为参考标准，在器官中测定铂浓度。

结果

对 phantom 进行 30min 的采集，为两种扫描仪提供了视觉上足够的图像质量。在 NanoSPECT 上可以看到最小的可见棒直径为 0.95mm，在 U-SPECT 上可以看到最小的可见棒直径为 0.85mm。小鼠的图像质量在视觉上是足够的。在肾脏中观察到摄取，并排泄到膀胱，在肝脏、血液和肠道中也观察到摄取。在大脑中未观察到摄取。SPECT 与伽马计数器之间的 Spearman 相关性为 0.92，SPECT 与 GF-AAS 之间的相关性为 0.84，GF-AAS 与伽马计数器之间的相关性为 0.97（均 p<0.0001）。

结论

临床前 Pt SPECT 是可行的，具有可接受的示踪剂剂量和采集时间，并提供良好的图像质量和准确的信号定量。

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铂-195m SPECT 的临床前成像特征和定量分析。

Preclinical imaging characteristics and quantification of Platinum-195m SPECT.

机构信息

出版信息

AIMS

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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