Radiopharmaceuticals Division, Bhabha Atomic Research Centre, Mumbai, India.
Nucl Med Biol. 2010 Jan;37(1):21-8. doi: 10.1016/j.nucmedbio.2009.08.010. Epub 2009 Oct 3.
In order to meet the growing demand for (99m)Tc and to reduce the reliance on fission-produced (99)Mo, an electrochemical pathway for accessing (99m)Tc through the (n, gamma)(99)Mo was explored as a back-up measure and to supplement (99m)Tc supply for radiopharmaceuticals application.
(99m)Tc from an equilibrium mixture of (99)Mo/(99m)Tc was selectively deposited on a platinum cathode in an electrochemical cell by applying optimal voltage and stripped back again into the 0.9% saline solution. The radiochemical and radionuclidic purity of the product were determined using standard techniques. (99m)Tc thus obtained was used for labeling standard ligands such as dimercaptosuccinic acid (DMSA) and ethylene dicysteine (EC), to ascertain the usability.
Selective deposition of (99m)Tc on the platinum electrode was achieved at a potential of 5 V over a period of 1 h in NaOH electrobath. The overall yield of (99m)Tc was >90%, with >99.99% radionuclidic purity and >99% radiochemical purity. The performance of the generator remained consistent over a period of 10 days. The compatibility of the product in the preparation of (99m)Tc-labeled formulations such as (99m)Tc-DMSA and (99m)Tc-EC was found to be satisfactory in terms of high labeling yields (>98%).
A novel and attractive method has been developed to obtain highly concentrated (99m)Tc, without using fission-produced (99)Mo.
为了满足对 (99m)Tc 的日益增长的需求,并减少对裂变生产的 (99)Mo 的依赖,探索了一种通过 (n,γ)(99)Mo 途径获取 (99m)Tc 的电化学途径,作为后备措施,并补充放射性药物应用的 (99m)Tc 供应。
通过施加最佳电压,将 (99)Mo/(99m)Tc 平衡混合物中的 (99m)Tc 选择性地沉积在电化学电池中的铂阴极上,并再次将其剥离回 0.9%生理盐水溶液中。使用标准技术确定产物的放射化学和放射性核纯度。由此获得的 (99m)Tc 用于标记标准配体,如二巯丁二酸 (DMSA) 和乙二硫代胱氨酸 (EC),以确定其可用性。
在 NaOH 电解槽中,在 5 V 的电势下,在 1 小时的时间内,成功地在铂电极上实现了 (99m)Tc 的选择性沉积。(99m)Tc 的总收率>90%,放射性核纯度>99.99%,放射化学纯度>99%。在 10 天的时间内,发生器的性能保持一致。该产品在制备 (99m)Tc 标记配方(如 (99m)Tc-DMSA 和 (99m)Tc-EC)中的性能令人满意,标记产率>98%。
开发了一种新颖且有吸引力的方法,可获得高浓度的 (99m)Tc,而无需使用裂变生产的 (99)Mo。
