Abstract
Genetic discoveries coupled with neuropathologic investigations initially established the central role for β-amyloidosis in Alzheimer disease (AD). Three dominantly inherited genes (APP, PSEN1, and PSEN2) and one common allelic variant with lower penetrance (APOE) account for the majority of the genetic basis for AD. PET biomarkers for AD have been developed in the past decade and are fundamentally altering our view of the disease. The availability of PET tracers, first for amyloid and now for tau, has enabled researchers to develop a model of AD that begins long before people become symptomatic. In persons destined to develop dementia due to AD, brain β-amyloid levels begin to rise 10 to 20 years earlier. Other imaging changes that might precede symptomatic disease include (1) reductions in brain metabolic activity in a group of temporal and parietal cortical association areas that can be demonstrated by [18F]fluorodeoxyglucose-PET scanning; (2) losses of hippocampal volume as measured on structural magnetic resonance imaging; and (3) loss of cortical thickness or cortical volume in temporal and parietal cortical association areas. All of these changes are greatly accentuated once people become symptomatic. Although mild elevations in tau PET abnormalities can also be seen in presymptomatic individuals, it is only when persons become symptomatic that marked elevations in these abnormalities begin to occur in those same temporal and parietal cortical association areas. Cerebrospinal fluid (CSF) biomarkers provide a complementary view, with CSF β-amyloid levels falling (presumably due to aggregation within the cortex) even before amyloid PET abnormalities are visible. CSF total tau and phospho-tau levels begin to rise when persons are much closer to being symptomatic. The sum of these observations has allowed researchers to gain a far more insightful antemortem view of the pathophysiology of AD in humans than had previously been available from neuropathologic investigations. Keywords: β-amyloid, cerebrospinal fluid β-amyloid, cerebrospinal fluid phospho-tau, cortical thickness, [18F]fluorodeoxyglucose–positron emission tomography, hippocampal atrophy, preclinical Alzheimer disease, tau protein
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