Tc-99m标记的新型六齿氨基硫醇配体的合成、表征和生物分布

C.S. John , E.O. Schlemper , P. Hosain , C.H. Paik , R.C. Reba
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引用次数: 4

摘要

合成了一种由三氮环壬烷衍生的新型六齿胺硫醇配体(TACNS),并对其进行了表征。该配体在酒石酸锡(II)作为还原剂存在下,与[99mTc]高技术酸盐形成中性、亲脂、稳定的配合物。[99mTc]TACNS的生物分布表明在脑中有轻微摄取(5分钟时为0.23% ID/器官),30分钟时为0.14% ID/器官。心脏也有少量摄取(5分钟时0.48%)。对[99mTc]TACNS配合物的单晶x射线分析和质谱表征表明,锡由Sn(II)氧化为Sn(IV),形成了Sn- n3s3配合物。高技术酸盐作为反阴离子加入到络合物中。比值TLC证实Tc-99与“无载流子添加”[99mTc]高技术酸盐形成的物种性质不同。这些结果表明,有时很难预测新的锝放射性药物的结构,特别是当使用亚锡离子作为还原剂时。此外,化学物质的性质在毫摩尔和纳摩尔水平上可能不一样。
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Synthesis, characterization and biodistribution of a new hexadentate aminethiol ligand labeled with Tc-99m

A new hexadentate aminethiol ligand (TACNS) derived from triazacyclononane was synthesized and characterized for the development of technetium radiopharmaceuticals. The ligand formed a neutral, lipophilic and stable complex with [99mTc]pertechnetate in the presence of tin(II)tartarate as a reducing agent. The biodistribution of [99mTc]TACNS indicates slight uptake in brain (0.23% ID/organ at 5 min) with a washout at 30 min to 0.14% ID/organ. A small uptake in heart (0.48% ID at 5 min) was also observed.

The characterization of [99mTc]TACNS complex using single crystal x-ray analysis and mass spectroscopy has shown that an Sn-N3S3 complex was formed in which tin is oxidized from Sn(II) to Sn(IV). Pertechnetate was incorporated into the complex as counter anion. The nature of the species formed with Tc-99 and “no-carrier-added” [99mTc]pertechnetate is different as confirmed by ratio TLC. From these results, it is demonstrated that sometimes it may be difficult to predict the structure of new technetium radiopharmaceuticals, especially when stannous ion is used as a reducing agent. Moreover, the nature of the chemical species may not be the same at millimolar and at nanomolar levels.

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