回旋加速器生产(44)Sc:从实验室到临床应用
Cyclotron production of (44)Sc: From bench to bedside.
作者信息
van der Meulen Nicholas P, Bunka Maruta, Domnanich Katharina A, Müller Cristina, Haller Stephanie, Vermeulen Christiaan, Türler Andreas, Schibli Roger
机构信息
Center for Radiopharmaceutical Sciences ETH-PSI-USZ, Paul Scherrer Institute, Villigen-PSI, Switzerland; Laboratory of Radiochemistry and Environmental Chemistry, Paul Scherrer Institute, Villigen-PSI, Switzerland.
Laboratory of Radiochemistry and Environmental Chemistry, Department of Chemistry and Biochemistry University of Bern, Bern, Switzerland.
出版信息
Nucl Med Biol. 2015 Sep;42(9):745-51. doi: 10.1016/j.nucmedbio.2015.05.005. Epub 2015 May 30.
INTRODUCTION
(44)Sc, a PET radionuclide, has promising decay characteristics (T1/2 = 3.97 h, Eβ(+)av = 632 keV) for nuclear imaging and is an attractive alternative to the short-lived (68)Ga (T1/2 = 68 min, Eβ(+)av = 830 keV). The aim of this study was the optimization of the (44)Sc production process at an accelerator, allowing its use for preclinical and clinical PET imaging.
METHODS
(44)CaCO3 targets were prepared and irradiated with protons (~11 MeV) at a beam current of 50 μA for 90 min. (44)Sc was separated from its target material using DGA extraction resin and concentrated using SCX cation exchange resin. Radiolabeling experiments at activities up to 500 MBq and stability tests were performed with DOTANOC by investigating different scavengers, including gentisic acid. Dynamic PET of an AR42J tumor-bearing mouse was performed after injection of (44)Sc-DOTANOC.
RESULTS
The optimized chemical separation method yielded up to 2 GBq (44)Sc of high radionuclidic purity. In the presence of gentisic acid, radiolabeling of (44)Sc with DOTANOC was achieved with a radiochemical yield of ~99% at high specific activity (10 MBq/nmol) and quantities which would allow clinical application. The dynamic PET images visualized increasing uptake of (44)Sc-DOTANOC into AR42J tumors and excretion of radioactivity through the kidneys of the investigated mouse.
CONCLUSIONS
The concept "from-bench-to-bedside" was clearly demonstrated in this extended study using cyclotron-produced (44)Sc. Sufficiently high activities of (44)Sc of excellent radionuclidic purity are obtainable for clinical application, by irradiation of enriched calcium at a cyclotron. This work demonstrates a promising basis for introducing (44)Sc to clinical routine of nuclear imaging using PET.
引言
钪-44((^{44})Sc)是一种正电子发射断层扫描(PET)放射性核素,具有适用于核成像的良好衰变特性(半衰期(T_{1/2}=3.97)小时,平均β+能量(E_{\beta(+)av}=632)keV),是短寿命的镓-68((^{68})Ga,(T_{1/2}=68)分钟,(E_{\beta(+)av}=830)keV)的一种有吸引力的替代物。本研究的目的是优化加速器中(^{44})Sc的生产工艺,使其可用于临床前和临床PET成像。
方法
制备了碳酸钙-44((^{44}CaCO_3))靶,并在束流为50μA的情况下用质子(~11MeV)照射90分钟。使用二甘醇酰胺(DGA)萃取树脂从靶材料中分离出(^{44})Sc,并使用强阳离子交换(SCX)树脂进行浓缩。通过研究包括龙胆酸在内的不同清除剂,用多氮杂环十二烷四乙酸环肽(DOTANOC)进行了活度高达500MBq的放射性标记实验和稳定性测试。在注射(^{44})Sc-DOTANOC后,对一只荷AR42J肿瘤的小鼠进行了动态PET检查。
结果
优化后的化学分离方法可产生高达2GBq的高放射性核纯度的(^{44})Sc。在龙胆酸存在的情况下,(^{44})Sc与DOTANOC的放射性标记在高比活度(10MBq/nmol)和足以用于临床应用的量下,放射性化学产率达到约99%。动态PET图像显示(^{44})Sc-DOTANOC在AR42J肿瘤中的摄取增加,以及放射性通过被研究小鼠的肾脏排出。
结论
在这项使用回旋加速器产生的(^{44})Sc的扩展研究中,清晰地展示了“从实验台到病床旁”的理念。通过在回旋加速器中照射富集钙,可获得放射性核纯度优异且活度足够高的(^{44})Sc用于临床应用。这项工作为将(^{44})Sc引入PET核成像的临床常规操作奠定了有前景的基础。
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