Kairemo K J, Kestilä M S, Savolainen S, Korhola O A, Hiltunen J V, Svahn R I, Korppi-Tommola E T, Knapp F F, Brihaye C
Department of Clinical Chemistry, Helsinki University Central Hospital, Finland.
J Nucl Biol Med (1991). 1994 Dec;38(4 Suppl 1):86-8.
Iridium-191m (191mIr, t1/2 = 4.96 sec), an ultra-short lived tracer, has turned out to be suitable for gamma imaging. It can be obtained in high yields from an 191Os/191mIr-generator with a low 191Os breakthrough. In this study the blood flow in the carotid and kidney arteries was studied in rabbits by radionuclide arteriograms. In addition, the whole body retention and biodistribution of 191Os was studied in rats. 191mIr was obtained from an activated carbon system, in a modification of the procedure described in the literature. The kidney regions (study I) of rabbits were imaged dynamically (5 frames/second) for up to 40 seconds, and the investigations were repeated 4-7 times in the same animal. Similarly, the carotid arteries were studied (study II) and from the curves flow parameters were calculated. In order to study the 191Os breakthrough two groups of rats (n = 5) were sacrificed one day and four days after injecting five diagnostic doses into the tail vein (study III). In study III the Os-retention was highest in the kidneys and spleen, followed by the muscles and liver: 0.11-0.12% ID/g tissues were obtained at 1 day and 0.10-0.13% ID/g at 4 days, respectively. These values indicate that the breakthrough values are by no means toxic and that investigations can be repeated immediately with a negligible radiation exposure. The investigations performed with the same animals (I-II) could be easily repeated and were reproducible. All of this indicates that 191mIr is suitable for radionuclide angiography and the generator system is simple and safe to use (191Os is beta-emitter).(ABSTRACT TRUNCATED AT 250 WORDS)
铱 - 191m(¹⁹¹mIr,半衰期t₁/₂ = 4.96秒)是一种超短寿命的示踪剂,已被证明适用于γ成像。它可以通过¹⁹¹Os/¹⁹¹mIr发生器以高产率获得,且¹⁹¹Os的突破率较低。在本研究中,通过放射性核素动脉造影研究了兔颈动脉和肾动脉的血流。此外,还研究了大鼠体内¹⁹¹Os的全身滞留和生物分布。¹⁹¹mIr是从活性炭系统中获得的,采用了文献中描述的方法的改进版本。对兔的肾区(研究I)进行动态成像(每秒5帧),持续40秒,并在同一动物中重复进行4 - 7次研究。同样,对颈动脉进行了研究(研究II),并从曲线中计算血流参数。为了研究¹⁹¹Os的突破情况,将两组大鼠(每组n = 5)在尾静脉注射五剂诊断剂量后1天和4天处死(研究III)。在研究III中,¹⁹¹Os在肾脏和脾脏中的滞留量最高,其次是肌肉和肝脏:分别在1天时为0.11 - 0.12%注射剂量/克组织,4天时为0.10 - 0.13%注射剂量/克组织。这些值表明突破值绝无毒害,并且可以在辐射暴露可忽略不计的情况下立即重复进行研究。在同一动物身上进行的研究(I - II)可以很容易地重复且具有可重复性。所有这些都表明¹⁹¹mIr适用于放射性核素血管造影,并且发生器系统使用简单且安全(¹⁹¹Os是β发射体)。(摘要截取自250字)
