Future prospects for SPECT imaging using the radiolanthanide terbium-155 — production and preclinical evaluation in tumor-bearing mice

Abstract

IntroductionWe assessed the suitability of the radiolanthanide 155Tb (t1/2=5.32days, Eγ=87keV (32%), 105keV (25%)) in combination with variable tumor targeted biomolecules using preclinical SPECT imaging. Methods155Tb was produced at ISOLDE (CERN, Geneva, Switzerland) by high-energy (~1.4GeV) proton irradiation of a tantalum target followed by ionization and on-line mass separation. 155Tb was separated from isobar and pseudo-isobar impurities by cation exchange chromatography. Four tumor targeting molecules – a somatostatin analog (DOTATATE), a minigastrin analog (MD), a folate derivative (cm09) and an anti-L1-CAM antibody (chCE7) – were radiolabeled with 155Tb. Imaging studies were performed in nude mice bearing AR42J, cholecystokinin-2 receptor expressing A431, KB, IGROV-1 and SKOV-3ip tumor xenografts using a dedicated small-animal SPECT/CT scanner. ResultsThe total yield of the two-step separation process of 155Tb was 86%. 155Tb was obtained in a physiological l-lactate solution suitable for direct labeling processes. The 155Tb-labeled tumor targeted biomolecules were obtained at a reasonable specific activity and high purity (>95%). 155Tb gave high quality, high resolution tomographic images. SPECT/CT experiments allowed excellent visualization of AR42J and CCK-2 receptor-expressing A431 tumors xenografts in mice after injection of 155Tb-DOTATATE and 155Tb-MD, respectively. The relatively long physical half-life of 155Tb matched in particular the biological half-lives of 155Tb-cm09 and 155Tb-DTPA-chCE7 allowing SPECT imaging of KB tumors, IGROV-1 and SKOV-3ip tumors even several days after administration. ConclusionsThe radiolanthanide 155Tb may be of particular interest for low-dose SPECT prior to therapy with a therapeutic match such as the β--emitting radiolanthanides 177Lu, 161Tb, 166Ho, and the pseudo-radiolanthanide 90Y.