DESCRIPTION (provided by applicant): The biological and clinical significance of amyloid ¿-protein (A¿) deposition in clinically normal older individuals remains to be elucidated. Consistent with prior autopsy studies, we and others have found that a substantial proportion (over 30%) of cognitively intact individuals over age 65 harbor significant amyloid pathology, detectable with PiB-PET imaging, in a similar pattern to that seen in Alzheimer's disease (AD). Our preliminary data indicate that the presence of amyloid is associated with subtle functional, structural and cognitive alterations, even among individuals who are considered clinically normal on screening tests. We seek to determine if asymptomatic older individuals with high amyloid burden are on a trajectory towards clinical AD, as this will open a critical time window for maximally effective therapeutic intervention. Furthermore, we believe that previous studies of "normal" cognitive aging have likely included many individuals in very early stages of prodromal AD, and that it is important to characterize age-related changes in cognition, brain structure and function in the absence of amyloid pathology. The Harvard Amyloid and Aging Brain PPG will study 300 clinically normal older individuals with a novel combination of molecular, functional, and structural imaging, plasma and CSF markers, and sensitive neuropsychological measures, to: 1) characterize brain and cognitive aging in the presence vs. absence of amyloid and 2) investigate the role of amyloid pathology in the transition from normal aging to prodromal AD. We propose four highly integrated projects, supported by four essential cores. Project 1 will examine executive function in aging, using sensitive imaging measures to assess the integrity of fronto-parietal networks and white matter tracts. Project 2 will investigate the impact of amyloid on memory networks, using functional MRI and challenging tests of episodic memory. Project 3 will characterize plasma and CSF markers of A¿ and tau, using novel assays to detect soluble A¿ oligomers and quantify their effects on synaptic structure and function with advanced electrophysiological and anatomical methods. Project 4 will investigate longitudinal accumulation of amyloid and its relationship to well-established imaging markers of AD, including FDG-PET and volumetric MRI, and to functional and cognitive decline. This PPG brings together an exceptional multidisciplinary team of clinical, statistical, cognitive neuroscience, imaging, and laboratory investigators dedicated to exploring the impact of amyloid on the aging brain.
