UNLABELLED: Radioiodinated meta-iodobenzylguanidine (MIBG), an analog of norepinephrine, has been used to assess myocardial sympathetic innervation. Recent in vivo studies predict enhanced cardiac uptake of this radiopharmaceutical with high specific activity. METHODS: To clarify the effect of specific activity on cardiac uptake of radioiodinated MIBG, the distribution and kinetics of no-carrier-added [123I]MIBG (> or = 7.4 TBq/mumol) were compared with those of commercial [123I]MIBG (approximately 74 MBq/mumol) in three healthy volunteers by serial imaging and blood sampling. RESULTS: Higher specific activity result in higher uptake of radioiodinated MIBG in all volunteers in the heart (p < 0.05) and liver (p < 0.05) but not in the lung (p = 0.26). Due to rapid deiodination, a more pronounced accumulation of radioactivity was present in plasma after no-carrier-added MIBG than commercial [123I]MIBG, resulting in higher background and thyroid activity after administration of the former. Calculated heart-to-liver (p = 0.96) and heart-to-lung (p = 0.42) count ratios in all volunteers revealed no significant improvement in cardiac imaging with no-carrier-added [123I]MIBG compared to commercial [123I]MIBG. CONCLUSION: This study highlights the appreciably higher in vivo deiodination of no-carrier-added [123I]MIBG compared to commercial preparation of [123I]MIBG in humans. Cardiac images acquired with no-carrier-added [123I]MIBG do not seem to be superior to those obtained with commercial MIBG.
UNLABELLED: Radioiodinated meta-iodobenzylguanidine (MIBG), an analog of norepinephrine, has been used to assess myocardial sympathetic innervation. Recent in vivo studies predict enhanced cardiac uptake of this radiopharmaceutical with high specific activity. METHODS: To clarify the effect of specific activity on cardiac uptake of radioiodinated MIBG, the distribution and kinetics of no-carrier-added [123I]MIBG (> or = 7.4 TBq/mumol) were compared with those of commercial [123I]MIBG (approximately 74 MBq/mumol) in three healthy volunteers by serial imaging and blood sampling. RESULTS: Higher specific activity result in higher uptake of radioiodinated MIBG in all volunteers in the heart (p < 0.05) and liver (p < 0.05) but not in the lung (p = 0.26). Due to rapid deiodination, a more pronounced accumulation of radioactivity was present in plasma after no-carrier-added MIBG than commercial [123I]MIBG, resulting in higher background and thyroid activity after administration of the former. Calculated heart-to-liver (p = 0.96) and heart-to-lung (p = 0.42) count ratios in all volunteers revealed no significant improvement in cardiac imaging with no-carrier-added [123I]MIBG compared to commercial [123I]MIBG. CONCLUSION: This study highlights the appreciably higher in vivo deiodination of no-carrier-added [123I]MIBG compared to commercial preparation of [123I]MIBG in humans. Cardiac images acquired with no-carrier-added [123I]MIBG do not seem to be superior to those obtained with commercial MIBG.
Authors: Zvi Bar-Sever; Lorenzo Biassoni; Barry Shulkin; Grace Kong; Michael S Hofman; Egesta Lopci; Irina Manea; Jacek Koziorowski; Rita Castellani; Ariane Boubaker; Bieke Lambert; Thomas Pfluger; Helen Nadel; Susan Sharp; Francesco Giammarile Journal: Eur J Nucl Med Mol Imaging Date: 2018-10 Impact factor: 9.236
Authors: Hein J Verberne; Kora de Bruin; Jan B A Habraken; G Aernout Somsen; Jos L H Eersels; Frits Moet; Jan Booij; Berthe L F van Eck-Smit Journal: Eur J Nucl Med Mol Imaging Date: 2006-01-20 Impact factor: 9.236
Authors: Hein J Verberne; Ellinor Busemann Sokole; Astrid F van Moerkerken; Joop H W M Deeterink; Geert Ensing; Michael G Stabin; G Aernout Somsen; Berthe L F van Eck-Smit Journal: Eur J Nucl Med Mol Imaging Date: 2008-01-04 Impact factor: 9.236