Characterization of Cerebral Blood Flow in Older Adults: A Potential Early Biomarker for Alzheimer's Disease

Abstract

Over 5 million older adults have Alzheimer's disease (AD) in the US, and this number is projected to double by 2050. Clinical trials of potential pharmacological treatments for AD have largely shown that once cognitive decline has occurred, targeting AD pathology in the brain does not improve cognition. Therefore, it is likely that the most effective treatments for AD will need to be administered before cognitive symptoms occur, necessitating a biomarker for the early, preclinical stages of AD. Cerebral blood flow (CBF) is a promising early biomarker for AD. CBF is decreased in individuals with AD compared to their normally aging counterparts, and it has been shown that CBF is altered in mild cognitive impairment (MCI) and earlier stages and may occur prior to amyloid or tau aggregation. In addition, CBF can be measured using arterial spin labeled (ASL) MRI, a noninvasive imaging technique that can be safely repeated over time to track prognosis or treatment efficacy. The complex temporal and spatial patterns of altered CBF over the course of AD, as well as the relationships between CBF and AD-specific and -nonspecific factors, will be critical to elucidate in order for CBF to be an effective early biomarker of AD. Here, we begin to characterize the relationships between CBF and risk factors, pathologies, and symptoms of AD. Chapter 1 is a systematic review of published literature that compares CBF in individuals with AD and MCI to CBF in cognitively normal (CN) controls and assesses the relationship between CBF and cognitive function. Chapter 2 reports our original research assessing the relationships between CBF, hypertension, and race/ethnicity in older adults without dementia from the the Indiana Alzheimer’s Disease Research Center (IADRC) and Alzheimer’s Disease Neuroimaging Initiative (ADNI). Chapter 3 reports our original research assessing the relationships between CBF and amyloid beta and tau aggregation measured with PET, as well as whether hypertension or APOEε4 positivity affects these relationships, in older adults without dementia from the IADRC. Chapter 4 reports our original research assessing the relationship between the spatial distribution of tau and subjective memory concerns.