UNLABELLED: Conventional myocardial perfusion PET tracers require onsite tracer production because of their short radioactive half-lives. To investigate the potential of a new (18)F-labeled pyridazinone analog ((18)F-BMS-747158-02), we characterized this tracer in a rat model of permanent and transient coronary occlusion using small-animal PET. METHODS: Myocardial (18)F-BMS-747158-02 distribution in healthy rats (n = 7), rats with transient (3-min) left coronary artery occlusion (n = 11), and rats with permanent left coronary occlusion (n = 11) was analyzed with a dedicated small-animal PET scanner. RESULTS: Normal hearts demonstrated intense and almost homogeneous tracer uptake throughout the left ventricle for more than 2 h. During permanent coronary occlusion, PET demonstrated perfusion defects, which remained unchanged (37.6% +/- 8.8%, 37.4% +/- 10.2%, and 36.2% +/- 9.8% left ventricle at 15, 45, and 115 min, respectively, after tracer injection). After transient ischemia, the induced defect size decreased significantly after reperfusion (16.2% +/- 9.3%, 6.0% +/- 6.5%, and 1.4% +/- 1.3% left ventricle). Tracer reinjection after transient ischemia resulted in normalization of the induced defect. CONCLUSION: Coronary occlusion yielded distinct myocardial (18)F-BMS-747158-02 uptake defects in the area of ischemia, which demonstrated normalization of activity after reperfusion and reinjection. These promising kinetic parameters may allow for assessment of flow using exercise-rest protocols similar to those used in combination with exercise and rest perfusion SPECT.
UNLABELLED: Conventional myocardial perfusion PET tracers require onsite tracer production because of their short radioactive half-lives. To investigate the potential of a new (18)F-labeled pyridazinone analog ((18)F-BMS-747158-02), we characterized this tracer in a rat model of permanent and transient coronary occlusion using small-animal PET. METHODS: Myocardial (18)F-BMS-747158-02 distribution in healthy rats (n = 7), rats with transient (3-min) left coronary artery occlusion (n = 11), and rats with permanent left coronary occlusion (n = 11) was analyzed with a dedicated small-animal PET scanner. RESULTS: Normal hearts demonstrated intense and almost homogeneous tracer uptake throughout the left ventricle for more than 2 h. During permanent coronary occlusion, PET demonstrated perfusion defects, which remained unchanged (37.6% +/- 8.8%, 37.4% +/- 10.2%, and 36.2% +/- 9.8% left ventricle at 15, 45, and 115 min, respectively, after tracer injection). After transient ischemia, the induced defect size decreased significantly after reperfusion (16.2% +/- 9.3%, 6.0% +/- 6.5%, and 1.4% +/- 1.3% left ventricle). Tracer reinjection after transient ischemia resulted in normalization of the induced defect. CONCLUSION:Coronary occlusion yielded distinct myocardial (18)F-BMS-747158-02 uptake defects in the area of ischemia, which demonstrated normalization of activity after reperfusion and reinjection. These promising kinetic parameters may allow for assessment of flow using exercise-rest protocols similar to those used in combination with exercise and rest perfusion SPECT.
Authors: Alexis Broisat; Mirta Ruiz; Norman C Goodman; Stephen M Hanrahan; Bryan W Reutter; Kathleen M Brennan; Mustafa Janabi; Saul Schaefer; Denny D Watson; George A Beller; Henry F VanBrocklin; David K Glover Journal: Circ Cardiovasc Imaging Date: 2011-09-14 Impact factor: 7.792
Authors: Rudolf A Werner; Yoshifumi Maya; Christoph Rischpler; Mehrbod S Javadi; Kazuhito Fukushima; Constantin Lapa; Ken Herrmann; Takahiro Higuchi Journal: Eur J Nucl Med Mol Imaging Date: 2015-08-21 Impact factor: 9.236