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Trials / Recruiting

RecruitingNCT05911178

Impact of Microglial Activation on Synaptic Density in Alzheimer's Disease

Status
Recruiting
Phase
N/A
Study type
Interventional
Enrollment
90 (estimated)
Sponsor
Centre Hospitalier St Anne · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Accepted

Summary

This study aims to analyse, in vivo, the interplay between microglial activation and tau pathology in Alzheimer's disease (AD) using \[18F\]-DPA-714 and \[18F\]-Ro948 tracers by Position Emission Tomography (PET), and their consequences on synaptic density using \[11C\]-UCB-J, a recent PET radioligand. By coupling advanced neuroimaging techniques in AD patients, while comparing them to controls, we will be able to study, for the first time in humans, the interaction between neuroinflammation, tau pathology, synaptic density, and their impact on AD progression. Joint analyses of peripheral immune biomarkers, carried out as a secondary objective, will further aim at defining peripheral correlates of this interplay. Overall, we aim to refine AD subgroup classification in order to improve and to refine the design of new therapeutic trials.

Detailed description

The present study aims to reevaluate the interplay between microglial activation, tau pathology, and synaptic density. It is an interventional, comparative, controlled, non-randomized study in which AD patients will be matched to controls. In order to better our current understanding of pathophysiological processes of neuroinflammation in AD, we will analyze regional microglial activation, cortical tau deposition, and synaptic dysfunction by employing multiple PET radioligands and MRI. The hybrid images will be acquired at baseline and at two years. This study design opens the door to a multimodal study; first transversal (by determining whether the level and the extent of DPA-714 binding are associated with synaptic loss and tau deposition) then longitudinal (after a two-year follow-up based on PET/MRI, cognitive and clinical assessment and peripheral immune biomarkers). By using PET imaging at baseline and at two years, we will investigate the neuroinflammation dynamics in sporadic AD and its consequences on neurodegenerative biomarkers as well as its clinical repercussions. Conservative diagnosis criteria based on clinical and CSF biomarkers have been established to avoid risks of misdiagnosis for the patients. The controls will undergo, at inclusion, an additional PiB-PET imaging to avoid bias and to identify amyloid positive controls. A complete clinical and cognitive evaluation will accompany the image acquisition at baseline. The subjects will be followed up clinically at one year. At two years, another set of PET/MRIs will be performed as well as a cognitive evaluation. The image acquisitions will be planned within 6 months of each clinical visit at baseline and at two years.

Conditions

Interventions

TypeNameDescription
RADIATION[11C]-UCB-JPET tracer binding to "SV2A" protein, used to study synaptic vesicle density.
RADIATION[18F]-DPA-714PET tracer binding to "TSPO" protein, used to study microglial activation.
RADIATION[18F]-RO-948PET tracer binding to "tau" protein, used to study the topography of tau deposition.
RADIATION[11C]-PiBPET tracer binding to Aβ40 and Aβ42 fibrils and insoluble plaques containing the aforementioned Aß peptides, used to study the topography of amyloid deposition.

Timeline

Start date
2023-10-18
Primary completion
2028-02-17
Completion
2028-04-17
First posted
2023-06-20
Last updated
2024-06-13

Locations

3 sites across 1 country: France

Source: ClinicalTrials.gov record NCT05911178. Inclusion in this directory is not an endorsement.