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  • Title: Chemical and biological evaluation of technetium (I) tricarbonyl complexes with EHIDA and DPD. 99m (I) complexes of EHIDA and DPD.
    Author: Djokić DDj, Janković DLj, Stamenković LLj, Pirmettis I.
    Journal: Nucl Med Rev Cent East Eur; 2004; 7(1):1-5. PubMed ID: 15318303.
    Abstract:
    BACKGROUND: 99mTc-phosphate and 99mTc-IDA complexes, made by the addition of 99mTcO4- to the kits, have been applied to bone and gallbladder imaging respectively, for many years. In this paper, an effort to label DPD and EHIDA with [99mTc(CO)3(H2O)3]+ was carried out. MATERIAL AND METHODS: DPD and EHIDA were synthesised and prepared in kit form in INS "Vinca". A carbonyl labelling agent Isolink (Mallinckrodt Medical B.V.) and a carbonyl precursor (NCRS Demokritos) were applied. The samples of each compound were added to a vial containing 99mTc-carbonyl precursor, in which original pH (10/11) was neutralised to a pH of around 5.5 or 7.5, the same one as the pH of the investigated compounds. After heating, the reaction products were analysed by HPLC equipped with UV and g-detector, with TEAP 0.05 M, methanol and water as solvent. The biological evaluation of 99m99mTc(I)-coordinated compounds, as well as 99mTc-DPD and 99mTc-EHIDA complexes, involved a bio distribution examination on Wistar rats. RESULTS: The results have shown that hydrophilic organometallic [99mTc(CO)3(H2O)3]+ precursor facilitates the formation of Tc (I) complexes with these ligands, based on the tricarbonyltechnetium (I) core. The changes in structure of DPD and EHIDA labelled molecules influenced biological behaviour: 99Tc(CO)3 -DPD did not accumulate in bone (< 1% of the complex was found in the femur), while 99Tc(CO)3-EHIDA has shown slower billiary excretion and faster filtration through the kidneys. DISCUSSION: The results of the labelling of DPD and EHIDA with [99mTc(CO)3(H2O)3]+ and their chemical and biological behaviour, in comparison with the same one for 99mTc-DPD and 99mTc-EHIDA, confirmed that different oxidation states of technetium make the formation of a variety of complexes with quite different behaviour possible.
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