Striatal dopamine transporter and receptor availability correlate with relative cerebral blood flow measured with [11C]PE2I, [18F]FE-PE2I and [11C]raclopride PET in healthy individuals

The aim of this retrospective study was to investigate relationships between relative cerebral blood flow and striatal dopamine transporter and dopamine D2/3 availability in healthy subjects. The data comprised dynamic PET scans with two dopamine transporter tracers [C-11]PE2I (n = 20) and [F-18]FE-PE2I (n = 20) and the D2/3 tracer [C-11]raclopride (n = 18). Subjects with a [C-11]PE2I scan also underwent a dynamic scan with the serotonin transporter tracer [C-11]DASB. Binding potential (BPND) and relative tracer delivery (R-1) values were calculated on regional and voxel-level. Striatal R-1 and BPND values were correlated, using either an MRI-based volume of interest (VOI) or an isocontour VOI based on the parametric BPND image. An inter-tracer comparison between [C-11]PE2I BPND and [C-11]DASB R-1 was done on a VOI-level and simulations were performed to investigate whether the constraints of the modeling could cause correlation of the parameters. A positive association was found between BPND and R-1 for all three dopamine tracers. A similar correlation was found for the inter-tracer correlation between [C-11]PE2I BPND and [C-11]DASB R-1. Simulations showed that this relationship was not caused by cross-correlation between parameters in the kinetic model. In conclusion, these results suggest an association between resting-state striatal dopamine function and relative blood flow in healthy subjects.