Aging Clinical Trial
Official title:
A Precision Rehabilitation Approach to Counteract Age-Related Cognitive
This study examines the behavioral, molecular, and structural biomarkers of brain health that will allow for the stratification of individuals according to their "cognitive signature" and function. This study will randomize older adults into one of four interventions for a period of 12 months: 1) Aerobic Exercise, 2) Resistance Exercise, 3) Yoga Exercise, 4) Health Education (involves stretching and range of motion activities). This aims of this study will examine whether and how these different types of training interventions exert effects cognitive function, brain structure, biomarkers of brain health and cognition, and physical function.
Physical activity is increasingly recognized to play a role in maintenance of brain health and attenuation of physical decline associated with aging. While physical activity has been shown to gradually decline with increasing age, initiation of an exercise protocol attenuates declines in cognition associated with advancing age, including impaired neurogenesis as well as decreased attention and learning. These benefits may be attributed, at least in part, to physical activity's role in maintaining an anti-inflammatory phenotype, and several clinical observational studies performed in older adults have shown an inverse relationship between self-reported physical activity and inflammatory biomarkers. Pre-clinical studies have also revealed that exposing aged animals to circulating factors derived from young animal counterparts significantly improves cognitive function and promotes neurogenesis. A major limitation of clinical studies investigating the effect of physical activity on cognitive function is that subjects display considerable variability in their responses to the intervention. There are likely to be multiple biological pathways by which physical activity influences brain structure and function, and the type of physical activity that may be effective for influencing these pathways is likely to vary greatly. A better mechanistic understanding of how different modes of physical activity may target varying regions of the brain and other aspects of aging is therefore warranted. This study examines the behavioral, molecular, and structural biomarkers of brain health that will allow for the stratification of individuals according to their "cognitive signature" and function. This study will randomize older adults into one of four interventions for a period of 12 months: 1) Aerobic Exercise, 2) Resistance Exercise, 3) Yoga Exercise, 4) Health Education (involves stretching and range of motion activities). This aims of this study will examine whether and how these different types of training interventions exert differential effects on potential pathways of cognition and function in aged individuals, and the role of baseline subject characteristics in mediating these responses. The specific aims are: 1. To compare changes in cognitive function in response to three different types of physical activity (aerobic activity, resistance training activity, yoga) versus health education control. 2. To compare changes in brain structure in response to three different types of physical activity (aerobic activity, resistance training activity, yoga) versus health education control. 3. To compare biomarkers of brain health and cognition in response to three different types of physical activity (aerobic activity, resistance training activity, yoga) versus health education control. 4. To examine changes in physical function in response to three different types of physical activity (aerobic activity, resistance training activity, yoga) versus health education control. 5. To conduct post-hoc analyses to examine whether baseline measures of cognitive function, brain structure, biomarkers, or physical function influence responsiveness to any of the three different types of physical activity (aerobic activity, resistance training activity, yoga) versus health education control. ;
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