Journal
MOVEMENT DISORDERS
Volume 33, Issue 4, Pages 592-599Publisher
WILEY
DOI: 10.1002/mds.27316
Keywords
Parkinson's disease; PET imaging; nigro-striatal degeneration; dopamine transporter protein (DAT); substantia nigra
Categories
Funding
- Swedish Foundation for Strategic Research
- AstraZeneca Translational Science Centre at Karolinska Institutet
- Swedish Parkinson's Disease Foundation
- Swedish Science Council
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Background: The imaging of biomarkers for characterization of dopaminergic impairment in Parkinson's disease (PD) is useful for diagnosis, patient stratification, and assessment of treatment outcomes. [F-18]FE-PE2I is an improved imaging tool allowing for detailed mapping of the dopamine transporter protein in the nigro-striatal system at the level of cell bodies (substantia nigra), axons, and presynaptic terminals (striatum). Objectives: The objective of this study was to compare the dopamine transporter protein loss in the presynaptic terminals to that in the cell bodies and axons in early PD patients using [F-18](E)-N-(3-iodoprop-2-enyl)-2b-carbofluoroethoxy-3b-(4-methyl-phenyl) nortropane ([F-18]FE-PE2I) and high-resolution PET. Methods: A total of 20 early PD patients (15 men/5 women, 628 years) and 20 controls (15 men/5 women, 627 years) underwent high-resolution [F-18]FE-PE2I PET. Dopamine transporter protein availability was estimated for the different nigro-striatal regions and expressed as nondisplaceable binding potential values. Results: When compared with controls, the binding potential values in PD patients were reduced by 36% to 70% in presynaptic terminals and by 30% in cell bodies. Dopamine transporter availability along the tracts was not different between the 2 groups (controls 0.5 +/- 0.1 vs PD 0.4 +/- 0.1). Conclusions: This is the first study that examines dopamine transporter protein availability in vivo within the entire nigro-striatal pathway. The results suggest that at early stages of symptomatic PD a greater loss is observed at the level of the axonal terminals when compared with cell bodies and axons of dopaminergic neurons. The findings suggest a relative preservation of cell bodies in early PD, which might be relevant for novel disease-modifying strategies. (c) 2018 International Parkinson and Movement Disorder Society
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