Imaging synaptic density in ageing and Alzheimer’s Disease with [ 18 F]-SynVesT-1
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This article is not in any list yet, why not save it to one of your lists.Abstract
Monitoring synaptic injury in neurodegenerative diseases may provide new insights into the evolution of the degenerative process as well as a potential mechanism to target for preservation of function. Synaptic density imaging with PET is a relatively new approach to this issue. However, there are remaining questions about technical approaches to data analysis including reference region selection, and how specific phenotypic presentations and symptoms of Alzheimer’s Disease (AD) are reflected in alterations in synaptic density.
Methods
Using an SV2A PET ligand radiolabeled with the 18 F isotope ([ 18 F]-SynVesT-1) we performed sensitivity analyses to determine the optimal reference tissue modelling approach to derive whole brain ratio images. Using these whole brain images from a sample of young adults, older adults, and patients with varied phenotypic presentations of AD we then contrast regional SV2A density and in vivo AD biomarkers.
Result
Reference tissue optimisation concluded that a cerebellar grey matter reference region is best for deriving whole brain ratio images. Using these whole brain ratio images, we find a strong inverse association between [ 18 F]-SynVesT-1 PET uptake and amyloid beta and tau PET deposition. Finally, we find that individuals with lower temporal grey matter volume but higher temporal [ 18 F]-SynVesT-1 PET uptake show preserved performance on the MMSE.
Conclusions
[ 18 F]-SynVesT-1 PET shows a close association with in vivo AD pathology and preserved SV2A density may be a possible marker for resilience to neurodegeneration.
