Frontal, midbrain and striatal dopaminergic function in early and advanced Parkinson's disease A 3D [(18)F]dopa-PET study.

We have studied focal changes in dopaminergic function throughout the brain volume in early and advanced Parkinson's disease by applying statistical parametric mapping (SPM) to 3D [(18)F]dopa-PET. Data from seven early hemi-Parkinson's disease and seven advanced bilateral Parkinson's disease patients were compared with that from 12 normal controls. Parametric images of [(18)F]dopa influx rate constant (K(i)(o)) were generated for each subject from dynamic 3D [(18)F]dopa datasets and transformed into standard stereotactic space. Significant changes in mean voxel [(18)F]dopa K(i)(o) values between the normal control group and each Parkinson's disease group were localized with SPM. Conventional region of interest analysis was also applied to comparable regions on the untransformed image datasets. In early left hemi-Parkinson's disease, significant extrastriatal increases in [(18)F]dopa K(i)(o) were observed in the left anterior cingulate gyrus and the dorsal midbrain region (P < 0.05, corrected) along with decreases in striatal [(18)F]dopa K(i)(o). In advanced Parkinson's disease, significant extrastriatal decreases in [(18)F]dopa K(i)(o) were observed in the ventral and dorsal midbrain regions (P < 0.05, corrected). No significant changes in [(18)F]dopa K(i)(o) were observed in the anterior cingulate region. In a direct comparison between the early and late Parkinson's disease groups, we observed relative [(18)F]dopa K(i)(o) reductions in ventral and dorsal midbrain, and dorsal pontine regions along with striatal [(18)F]dopa K(i)(o) reductions. Similiar results were found with a region of interest approach, on non-transformed data, except for the focal midbrain [(18)F]dopa K(i)(o) increase seen in early Parkinson's disease. In conclusion, using SPM with [(18)F]dopa-PET, we have objectively localized changes in extrastriatal, pre-synaptic dopaminergic function in Parkinson's disease. The significance of the increased dopaminergic activity of anterior cingulate in early Parkinson's disease remains unclear, but may be compensatory. The [(18)F]dopa signal in dorsal midbrain and pontine regions suggests that [(18)F]dopa is taken up by serotonergic and noradrenergic neurons which also degenerate in advanced Parkinson's disease. This suggests, therefore, that Parkinson's disease is a monoaminergic neurodegenerative disorder.