UNLABELLED: The copper(II) complex of ethylglyoxal bis(thiosemicarbazone) (Cu-ETS) was evaluated as a positron emission tomography (PET) radiopharmaceutical for assessment of regional renal perfusion. METHODS: The concordance of renal flow estimates obtained with 11- and 15-microm microspheres was confirmed in four immature farm pigs using co-injected (46)Sc- and (57)Co-microspheres administered into the left ventricle. With the use of both immature farm pigs (n=3) and mature Göttingen minipigs (n=6), regional renal radiocopper uptake following intravenous [(64)Cu]Cu-ETS administration was compared to microsphere measurements of renal perfusion. The distribution and kinetics of [(64)Cu]Cu-ETS were further studied by PET imaging of the kidneys. The rate of [(64)Cu]Cu-ETS decomposition by blood was evaluated in vitro, employing octanol extraction to recover intact [(64)Cu]Cu-ETS. RESULTS: The co-injected 11- and 15-microm microspheres provided similar estimates of renal flow. A linear relationship was observed between the renal uptake of intravenous [(64)Cu]Cu-ETS and regional renal perfusion measured using microspheres. [(64)Cu]Cu-ETS provided high-quality PET kidney images demonstrating the expected count gradient from high-flow outer cortex to low-flow medulla. When incubated with pig blood in vitro at 37 degrees C, the [(64)Cu]Cu-ETS radiopharmaceutical was observed to decompose with a half-time of 2.8 min. CONCLUSION: Cu-ETS appears suitable for use as a PET radiopharmaceutical for evaluation of regional renal perfusion, affording renal uptake of radiocopper that varies linearly with microsphere perfusion measurements. Quantification of renal perfusion (in ml min(-1) g(-1)) with [(60,61,62,64)Cu]Cu-ETS will require correcting the arterial input function for the fraction of blood radiocopper remaining present as the intact Cu-ETS radiopharmaceutical, since the Cu-ETS chelate has limited chemical stability in blood. Rapid octanol extraction of blood samples appears suitable as an approach to capturing the actual blood concentration of [(60/61/62/64)Cu]Cu-ETS.
UNLABELLED: The copper(II) complex of ethylglyoxal bis(thiosemicarbazone) (Cu-ETS) was evaluated as a positron emission tomography (PET) radiopharmaceutical for assessment of regional renal perfusion. METHODS: The concordance of renal flow estimates obtained with 11- and 15-microm microspheres was confirmed in four immature farm pigs using co-injected (46)Sc- and (57)Co-microspheres administered into the left ventricle. With the use of both immature farm pigs (n=3) and mature Göttingen minipigs (n=6), regional renal radiocopper uptake following intravenous [(64)Cu]Cu-ETS administration was compared to microsphere measurements of renal perfusion. The distribution and kinetics of [(64)Cu]Cu-ETS were further studied by PET imaging of the kidneys. The rate of [(64)Cu]Cu-ETS decomposition by blood was evaluated in vitro, employing octanol extraction to recover intact [(64)Cu]Cu-ETS. RESULTS: The co-injected 11- and 15-microm microspheres provided similar estimates of renal flow. A linear relationship was observed between the renal uptake of intravenous [(64)Cu]Cu-ETS and regional renal perfusion measured using microspheres. [(64)Cu]Cu-ETS provided high-quality PET kidney images demonstrating the expected count gradient from high-flow outer cortex to low-flow medulla. When incubated with pig blood in vitro at 37 degrees C, the [(64)Cu]Cu-ETS radiopharmaceutical was observed to decompose with a half-time of 2.8 min. CONCLUSION:Cu-ETS appears suitable for use as a PET radiopharmaceutical for evaluation of regional renal perfusion, affording renal uptake of radiocopper that varies linearly with microsphere perfusion measurements. Quantification of renal perfusion (in ml min(-1) g(-1)) with [(60,61,62,64)Cu]Cu-ETS will require correcting the arterial input function for the fraction of blood radiocopper remaining present as the intact Cu-ETS radiopharmaceutical, since the Cu-ETS chelate has limited chemical stability in blood. Rapid octanol extraction of blood samples appears suitable as an approach to capturing the actual blood concentration of [(60/61/62/64)Cu]Cu-ETS.
Authors: Douglas S MacPherson; Kimberly Fung; Brendon E Cook; Lynn C Francesconi; Brian M Zeglis Journal: Dalton Trans Date: 2019-10-07 Impact factor: 4.390
Authors: C Cawthorne; C Prenant; A Smigova; P Julyan; R Maroy; K Herholz; N Rothwell; H Boutin Journal: Br J Pharmacol Date: 2011-02 Impact factor: 8.739