Rat Imaging and In Vivo Stability Studies using [11C]-Dimethyl-Diphenyl Ammonium,a Candidate Agent for PET-Myocardial Perfusion Imaging

BackgroundPET myocardial perfusion imaging (MPI) holds several advantages over SPECT for diagnosing coronary artery disease. The short half-lives of prevailing PET-MPI agents hamper wider clinical application of PET in nuclear cardiology; prompting the development of novel PET-MPI agents. We have previously reported on the potential of radiolabeled ammonium salts, and particularly on that of [¹¹C]dimethyl-diphenyl-ammonium ([¹¹C]DMDPA), for cardiac PET imaging. This study was designed to improve the radiosynthesis and increase the yield of [¹¹C]DMDPA, characterize more meticulously the kinetics of radioactivity distribution after its injection via micro-PET/CT studies, and further explore its potential for PET-MPI.MethodsThe radiosynthetic procedure of [¹¹C]DMDPA was improved with respect to the previously reported one. The kinetics of radioactivity distribution following injection of [¹¹C]DMDPA were investigated in juvenile and young adult male SD rats using microPET/CT, and compared to those of [¹³N]NH₃. Furthermore, the metabolic fate of [¹¹C]DMDPA in vivo was examined after its injection into rats.ResultsFollowing a radiosynthesis time of 25–27 min, 11.9 ± 1.1 GBq of [¹¹C]DMDPA was obtained, with a 43.7% ± 4.3% radiochemical yield (n = 7). Time activity curves calculated after administration of [¹¹C]DMDPA indicated rapid, high and sustained radioactivity uptake in hearts of both juvenile and young adult rats, having a two-fold higher cardiac radioactivity uptake compared to [¹³N]NH₃. Accordingly, at all time points after injection to both juvenile and young adult rats, image quality of the left ventricle was higher with [¹¹C]DMDPA compared to [¹³N]NH₃. In vivo stability studies of [¹¹C]DMDPA indicate that no radioactive metabolites could be detected in plasma, liver and urine samples of rats up to 20 min after injection, suggesting that [¹¹C]DMDPA is metabolically stable in vivo.ConclusionsThis study further illustrates that [¹¹C]DMDPA holds, at least in part, essential qualities required from a PET-MPI probe. Owing to the improved radiosynthetic procedure reported herein, [¹¹C]DMDPA can be produced in sufficient amounts for clinical use.