Preparation and biodistribution of yttrium-90 Lipiodol in rats following hepatic arterial injection

Abstract

In this study, we labelled Lipiodol with yttrium-90 and analysed the biodistribution in rats after intrahepatic arterial injection. An RP-18 column (E. Merck) was used to separate⁹⁰Y from strontium-90.⁹⁰Y was retained on the column, which had been pretreated with yttrium-selective extraction reagent, di(2-ethylhexyl) phosphate, while⁹⁰Sr was washed out. A hexadentate nitrogen-donor chelating ligandN,N,N′,N′-tetrakis(2-ben-zymidazolylmethyl)-1,2-ethanediamine (EDTB) was synthesized by condensation of 1,2-benzenediamine and ethylene diamine tetra-acetic acid (EDTA). Lipiodol was covalently conjugated with EDTB. The final product was obtained by eluting the retained⁹⁰Y from the RP-18 column with EDTB-Lipiodol. Sixteen male rats (Sprague-Dawley) were sacrificed at 1 h, 24 h, 48 h and 72 h (four rats at each time) after injection of approximately 0.1 mCi⁹⁰Y Lipiodol via the hepatic artery. Samples of liver, spleen, muscle, lung, kidney, bone, whole blood and testis were obtained and counted to calculate the tissue concentrations. In addition, labelling efficiency and in vitro stability were determined by ITLC methods. We found that at 1 h after intrahepatic injection, most of the radiotracer was retained in the liver, but it was eliminated gradually over a few days. The radioactivity level in the lung was fair at 1 h and remained at roughly the same level throughout the study. Radioactivity in the kidney and spleen reached a relatively high level at 24 h, but declined rapidly. Bone uptake was low initially but showed an increase between 24 h and 72 h. Low concentrations of radioactivity were noted in the muscle, testis and whole blood. In the study of in vitro stability, radiochemical purity and labelling efficiency were higher than 90%, indicative of good stability. These initial results indicate that Lipiodol may be a possible carrier agent for⁹⁰Y The retention of⁹⁰Y-Lipiodol in the normal liver is high initially; however, elimination occurs over a period of a few days. Future studies should assess the biodistribution of⁹⁰Y Lipiodol in an animal model with liver cancer.