Uptake and retention kinetics of para-fluorine-18-fluorobenzylguanidine in isolated rat heart.

UNLABELLED: Para-[18F]fluorobenzylguanidine ([18F]PFBG) is a newly developed tracer for imaging myocardial sympathetic neuronal innervation. This study investigated the uptake and retention mechanisms of [18F]PFBG in perfused, isolated rat heart. METHODS: Fluorine-18-PFBG was administered to working rat hearts within the perfusion medium at a constant activity concentration (1.5-2 MBq/liter) for 8 min, followed by a washout period (50 min). External scintillation probes with coincidence detection circuitry were used to measure myocardial radioactivity. Six groups of hearts (n = 6, except in Group 6) were studied: (Group 1) control; (Group 2) 100 nM desipramine (DMI); (Group 3) 0.8 microM SKF550; (Group 4) DMI + SKF550; (Group 5) SKF550 + 1.0 microM Ro 4-1284; and (Group 6) SKF550 with DMI chase at 30 min (n = 4). RESULTS: Groups 2, 3 and 4 showed a mean reduction of 19% (uptake-1 blockade), 58% (uptake-2 blockade) and 95% (uptake-1 and uptake-2 blockade) in uptake rates, respectively, compared with control (p < 0.01). A further 33% reduction in the uptake rate was noted with vesicular transport inhibition (Group 5 compared with 3, p = 0.054). Biphasic clearance consisting of rapid (T1/2 = 5.32 +/- 1.1 min) and slow (T1/2 = 35.2 +/- 9.6 min) components were noted in control hearts. The rapid (T1/2 = 1.6 +/- 0.3 min) and slow (T1/2 = 10.9 +/- 1.4 min) clearance rates were accelerated (p < 0.0001) in Group 5 compared to control. DMI chase conditions (Group 6) caused an inhibition of [18F]PFBG washout (p = 0.004) suggesting a role for reverse transport through the uptake-1 carrier. CONCLUSION: Fluorine-18-PFBG is specifically accumulated by sympathetic nerve terminals. However, further work is recommended in humans to evaluate the potential implications of specific extraneuronal uptake of [18F]PFBG through the uptake-2 mechanism.

Duke Scholars

Author Michael Rod Zalutsky Radiology