Ando A, Ando I
School of Allied Medical Professions, Kanazawa University, Japan.
J Radiat Res. 1990 Mar;31(1):97-109. doi: 10.1269/jrr.31.97.
The biodistribution and binding substances of 95Nb and 182Ta were investigated and compared with other nuclides using tumor-bearing rats and mice. Retention values of 95Nb in tumor tissue were greater than those for 67Ga-citrate, while those for 182Ta were similar to those for 67Ga. The values for these nuclides in the liver and spleen were much smaller than those for 67Ga. However, the values for blood and some soft tissues were much greater than those for 67Ga. The concentrations of 95Nb and 182Ta were more dominant in the connective tissue (especially inflammatory tissue) than in the other categories of tumor tissue. These nuclides accumulated rapidly into the mitochondrial fraction (containing lysosome) of the liver, reaching about 50% after 48 hours, but these nuclides existed relatively uniformly in the tumor cells. The main binding substance of these nuclides in the above tissues was the acid mucopolysaccharide whose molecular mass exceeded 40,000 daltons. Radioactive niobium can be a potential tumor imaging agent. Among radioactive niobiums, 95mNb has physical characteristics (half-life 90 hours, IT decay, 234-keV energy of 100% abundance) suitable for clinical imaging study.
利用荷瘤大鼠和小鼠,研究并比较了⁹⁵Nb和¹⁸²Ta的生物分布及结合物质与其他核素的情况。⁹⁵Nb在肿瘤组织中的滞留值大于枸橼酸⁶⁷Ga,而¹⁸²Ta的滞留值与⁶⁷Ga相似。这些核素在肝脏和脾脏中的值远小于⁶⁷Ga。然而,在血液和一些软组织中的值远大于⁶⁷Ga。⁹⁵Nb和¹⁸²Ta在结缔组织(尤其是炎症组织)中的浓度比在其他类型的肿瘤组织中更占优势。这些核素迅速积累到肝脏的线粒体部分(含溶酶体),48小时后达到约50%,但这些核素在肿瘤细胞中相对均匀地存在。上述组织中这些核素的主要结合物质是分子量超过40000道尔顿的酸性粘多糖。放射性铌可能是一种潜在的肿瘤显像剂。在放射性铌中,⁹⁵mNb具有适合临床显像研究的物理特性(半衰期90小时,IT衰变,100%丰度的234keV能量)。