Steinunn Þórðardóttir scite author profile

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Diverging longitudinal changes in astrocytosis and amyloid PET in autosomal dominant Alzheimer’s disease

Rodriguez‐Vieitez

Saint‐Aubert

Carter

et al. 2016

Brain

248

258

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See Schott and Fox (doi: ) for a scientific commentary on this article. The relationships between pathophysiological processes in Alzheimer’s disease remain largely unclear. In a longitudinal, multitracer PET study, Rodriguez-Vieitez et al. reveal that progression of autosomal dominant Alzheimer’s disease is accompanied by prominent early and then declining astrocytosis, increasing amyloid plaque deposition and decreasing glucose metabolism. Astrocyte activation may initiate Alzheimer pathology.

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Low PiB PET retention in presence of pathologic CSF biomarkers in Arctic APP mutation carriers

Schöll¹,

Wall²,

Þórðardóttir³

et al. 2012

Neurology

149

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Early astrocytosis in autosomal dominant Alzheimer’s disease measured in vivo by multi-tracer positron emission tomography

Schöll

Carter

Westman

et al. 2015

Sci Rep

122

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Studying autosomal dominant Alzheimer’s disease (ADAD), caused by gene mutations yielding nearly complete penetrance and a distinct age of symptom onset, allows investigation of presymptomatic pathological processes that can identify a therapeutic window for disease-modifying therapies. Astrocyte activation may occur in presymptomatic Alzheimer’s disease (AD) because reactive astrocytes surround β-amyloid (Aβ) plaques in autopsy brain tissue. Positron emission tomography was performed to investigate fibrillar Aβ, astrocytosis and cerebral glucose metabolism with the radiotracers 11C-Pittsburgh compound-B (PIB), 11C-deuterium-L-deprenyl (DED) and 18F-fluorodeoxyglucose (FDG) respectively in presymptomatic and symptomatic ADAD participants (n = 21), patients with mild cognitive impairment (n = 11) and sporadic AD (n = 7). Multivariate analysis using the combined data from all radiotracers clearly separated the different groups along the first and second principal components according to increased PIB retention/decreased FDG uptake (component 1) and increased DED binding (component 2). Presymptomatic ADAD mutation carriers showed significantly higher PIB retention than non-carriers in all brain regions except the hippocampus. DED binding was highest in presymptomatic ADAD mutation carriers. This suggests that non-fibrillar Aβ or early stage plaque depostion might interact with inflammatory responses indicating astrocytosis as an early contributory driving force in AD pathology. The novelty of this finding will be investigated in longitudinal follow-up studies.

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