Strategies for promoting healthy brain aging and preventing Alzheimer's disease (AD) are increasingly important with the unprecedented growth of the elderly population. The advent of amyloid imaging has created an opportunity to identify individuals in the putative earliest stages of the disease. Approximately 30% of cognitively normal older adults have cerebral amyloidosis and meet research criteria for """"""""preclinical AD."""""""" This proposal examines the effects of aerobic exercise on AD pathophysiology (amyloid burden) and associated """"""""downstream"""""""" neurodegeneration (regional atrophy) and cognitive decline in preclinical AD. Our long-term research goal is to develop and test strategies to prevent AD. We will examine the effects of a 52-week aerobic exercise program in 100 individuals with preclinical AD. The University of Kansas Alzheimer's Disease Center (KU ADC;P30AG035982) will screen 400 sedentary, cognitively normal (CDR 0) individuals age 65 and older with Florbetapir PET imaging to enroll 100 preclinical AD participants into the exercise trial. Participants will be randomized in a 2:1 ratio to either aerobic exercise (n=67) vs. stretching / toning control (n=33). Exercise training will occur in a community setting through the network of Greater Kansas City YMCAs, building on our history of NIH-funded collaborations with the YMCA. We hypothesize that 52 weeks of aerobic exercise will be associated with lower amyloid burden as measured by Florbetapir PET imaging (aim 1), attenuate hippocampal atrophy (aim 2), and provide cognitive benefits (aim 3). Animal data suggests exercise may modify AD neuropathological burden while human studies suggest exercise protects against age-related functional and structural brain changes. Nevertheless, the current data is insufficient to conclude that physical exercise delays or prevents AD and there remains a critical need for rigorous intervention trials to investigate AD prevention strategies. This proposal will provide important preliminary data assessing disease-modifying benefits of exercise on AD pathophysiology in high-risk individuals and inform the design of more definitive studies of exercise as an AD prevention strategy.
Over 5 million Americans currently have AD and the prevalence is rising sharply as the population ages. There is a need for rigorous trials assessing the role of AD prevention strategies. Demonstrating that aerobic exercise alters AD pathophysiology would have enormous public health implications, encourage the public to adapt more active lifestyles, and stimulate the development effective exercise delivery programs.
|Burns, Jeffrey M; Johnson, David K; Liebmann, Edward P et al. (2017) Safety of disclosing amyloid status in cognitively normal older adults. Alzheimers Dement 13:1024-1030|
|Harn, Nicholas R; Hunt, Suzanne L; Hill, Jacqueline et al. (2017) Augmenting Amyloid PET Interpretations With Quantitative Information Improves Consistency of Early Amyloid Detection. Clin Nucl Med 42:577-581|
|Morris, Jill K; Uy, Roxanne Adeline Z; Vidoni, Eric D et al. (2017) Effect of APOE ?4 Genotype on Metabolic Biomarkers in Aging and Alzheimer's Disease. J Alzheimers Dis 58:1129-1135|
|Morris, Jill K; Vidoni, Eric D; Wilkins, Heather M et al. (2016) Impaired fasting glucose is associated with increased regional cerebral amyloid. Neurobiol Aging 44:138-142|
|Morris, Jill K; Vidoni, Eric D; Mahnken, Jonathan D et al. (2016) Cognitively impaired elderly exhibit insulin resistance and no memory improvement with infused insulin. Neurobiol Aging 39:19-24|
|Vidoni, Eric D; Burns, Jeffrey M (2015) Exercise programmes for older people with dementia may have an effect on cognitive function and activities of daily living, but studies give inconsistent results. Evid Based Nurs 18:4|
|Billinger, Sandra A; Vidoni, Eric D; Greer, Colby S et al. (2014) Cardiopulmonary exercise testing is well tolerated in people with Alzheimer-related cognitive impairment. Arch Phys Med Rehabil 95:1714-8|
|Morris, Jill K; Honea, Robyn A; Vidoni, Eric D et al. (2014) Is Alzheimer's disease a systemic disease? Biochim Biophys Acta 1842:1340-9|