The defining neuropathologic lesions of Alzheimer's disease (AD) are amyloid-b plaques and tau neurofibrillary tangles, both of which appear many years before the onset of symptoms of cognitive impairment. The overarching goal of this proposal is to evaluate a novel PET tracer, known as [F18] T807, that detects the tau neurofibrillary tangles. We will address three specific contexts in which tau PET could potentially provide critical information useful in clinical AD research by identifying stages of T807 retention that reflect the levels and extent of PHF tau according to the established Braak staging scheme: 1) The identification of age- associated medial temporal lobe PHF-tau that is consistent with Braak Stage I/II, the slowly accumulating form that begins in the third decade of life, but in late years may possibly correlate with more subtle cognitive capacities or have predictive value for eventual development of impairment, perhaps when combined with biomarker evidence of Ab deposition; 2) The identification of a neocortical PHF-tau cut point of positivity that indicates a impaired stage of cognitive and clinical function, which when evaluated as a continuous variable is closely correlated with phenotypic features of the illness; 3) A determination of the links between deposition of tau and other biomarkers of AD, including amyloid-b, additional measures of neurodegeneration such as volumetric MRI, CSF tau, and measures of large-scale network disruption measured with fcMRI. This proposal builds on our previous work and existing multidisciplinary collaborations to develop clinically relevant, highly sensitive methods for tracking i) early tau deposition that may be linked to early impairment and ii) neocortical tau deposition that is hypothetically linked to dementia (Aim 1), to illuminate the relationship between more malignant, anatomically specific tau deposition that relates to local and generalized volume loss and network connectivity breakdown (Aim 2), and to relate directly in vivo for the first time the joint evolution of brain tau and amyloid-b deposition throughout the lie span (Aim 3).
The proposed research will use PET scans to detect an abnormal form of a brain protein known as tau in living humans, and relate tau pathology to age, brain shrinkage, and cognitive impairment. In addition, the role of these measures of tau in Alzheimer's disease dementia will be explored in AD dementia patients and in normal elderly, in particular to relate tau measures to measures of a different abnormal protein known as amyloid-?. This research has public health impact as it may improve our ability to identify transitional stages between normal aging and Alzheimer's disease dementia.
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Hanseeuw, Bernard J; Betensky, Rebecca A; Schultz, Aaron P et al. (2017) Fluorodeoxyglucose metabolism associated with tau-amyloid interaction predicts memory decline. Ann Neurol 81:583-596 |
Dagley, Alexander; LaPoint, Molly; Huijbers, Willem et al. (2017) Harvard Aging Brain Study: Dataset and accessibility. Neuroimage 144:255-258 |
Marshall, Gad A; Aghjayan, Sarah L; Dekhtyar, Maria et al. (2017) Activities of daily living measured by the Harvard Automated Phone Task track with cognitive decline over time in non-demented elderly. J Prev Alzheimers Dis 4:81-86 |
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