BACKGROUND: Experimental data have indicated that [99mTc]-nitroimidazole (BMS-181321) is preferentially taken up in hypoxic tissue; its kinetics, however, has not been fully investigated. The purpose of this study was to address the relation between perfusate oxygen level and myocardial retention of [99mTc]nitroimidazole. METHODS AND RESULTS: Bolus injection and constant infusion experiments were performed in Langendorff buffer-perfused rat hearts in normoxic and hypoxic conditions. Data were acquired with a pair of NaI detectors. The initial clearance rate of [99mTc]nitroimidazole was approximately 20 seconds and independent of perfusate oxygen level. The slow clearance rate was greater than 3 hours in all perfusion conditions. The tissue retention of [99mTc]nitroimidazole varied from 0.61 +/- 0.14% in normoxic conditions to 5.94 +/- 1.16% in the most severe hypoxic conditions. In addition, tissue retention was inversely proportional to perfusate oxygen level in a sigmoidal manner. The constant infusion experiments established that the binding rate at 25% oxygen level (1.94 +/- 0.38 mL of perfusate/min-g dry wt) was twofold of that at 40% and sevenfold at 100%. The binding rate of [99mTc]nitroimidazole was independent of the perfusion sequence, suggesting irreversible binding. CONCLUSIONS: These data indicate that [99mTc]nitroimidazole may be a useful tracer for the identification of myocardial hypoxia. A sigmoidal relation was demonstrated for the uptake of the tracer, which suggests that a threshold level of hypoxia is necessary for the uptake of the tracer.
BACKGROUND: Experimental data have indicated that [99mTc]-nitroimidazole (BMS-181321) is preferentially taken up in hypoxic tissue; its kinetics, however, has not been fully investigated. The purpose of this study was to address the relation between perfusate oxygen level and myocardial retention of [99mTc]nitroimidazole. METHODS AND RESULTS: Bolus injection and constant infusion experiments were performed in Langendorff buffer-perfused rat hearts in normoxic and hypoxic conditions. Data were acquired with a pair of NaI detectors. The initial clearance rate of [99mTc]nitroimidazole was approximately 20 seconds and independent of perfusate oxygen level. The slow clearance rate was greater than 3 hours in all perfusion conditions. The tissue retention of [99mTc]nitroimidazole varied from 0.61 +/- 0.14% in normoxic conditions to 5.94 +/- 1.16% in the most severe hypoxic conditions. In addition, tissue retention was inversely proportional to perfusate oxygen level in a sigmoidal manner. The constant infusion experiments established that the binding rate at 25% oxygen level (1.94 +/- 0.38 mL of perfusate/min-g dry wt) was twofold of that at 40% and sevenfold at 100%. The binding rate of [99mTc]nitroimidazole was independent of the perfusion sequence, suggesting irreversible binding. CONCLUSIONS: These data indicate that [99mTc]nitroimidazole may be a useful tracer for the identification of myocardial hypoxia. A sigmoidal relation was demonstrated for the uptake of the tracer, which suggests that a threshold level of hypoxia is necessary for the uptake of the tracer.
Authors: Maxwell G Handley; Rodolfo A Medina; Erika Mariotti; Gavin D Kenny; Karen P Shaw; Ran Yan; Thomas R Eykyn; Philip J Blower; Richard Southworth Journal: J Nucl Med Date: 2014-01-13 Impact factor: 10.057
Authors: Fiona Shaughnessy; Erika Mariotti; Karen P Shaw; Thomas R Eykyn; Philip J Blower; Richard Siow; Richard Southworth Journal: EJNMMI Res Date: 2014-08-01 Impact factor: 3.138
Authors: Erika Mariotti; Mattia Veronese; Joel T Dunn; Rodolfo A Medina; Philip J Blower; Richard Southworth; Thomas R Eykyn Journal: EJNMMI Res Date: 2013-11-14 Impact factor: 3.138