Physical Activity, Cognition, and Brain Outcomes (original) (raw)
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Benefits of Physical Activity on Cognitive Functioning in Older Adults
Annual Review of Gerontology and Geriatrics, 2016
As the world becomes more populated and more medically advanced, more people are starting to live longer. There are growing concerns for the health and well-being of an ever-growing population. Aging is accompanied by a series of changes, cognitive decline being one of them. As health becomes more challenging, physical activity may become more cumbersome. However, in many instances, physical activity has been found to prevent and delay cognitive decline. In fact, exercise may prove to be a powerful preventative measure against cognitive impairment in older adults. The aim of this chapter is to explore the evidence base of the effects of physical activity on cognitive decline prevention as well as to review the recommended guidelines for physical activity in this population based on findings in the field.
Brain Sciences, 2012
The population of elderly adults in the US is growing, and the prevalence of age-related cognitive decline and dementia is expected to increase in turn. Effective and inexpensive interventions or preventive measures are necessary to attenuate the increased economic and social burden of dementia. This review will focus on the potential for physical activity and exercise training to promote brain health and improve cognitive function via neurophysiological changes. We will review pertinent animal and human research examining the effects of physical activity on cognitive function and neurophysiology. We will discuss cross-sectional and longitudinal studies addressing the relationship between neurocognitive health and cardiorespiratory fitness or habitual activity level. We will then present and discuss longitudinal investigations examining the effects of exercise training on cognitive function and neurophysiology. We will conclude by summarizing our current understanding of the relationship between physical activity and brain health, and present areas for future research given the current gaps in our understanding of this issue.
revneuro, 2011
A growing body of literature suggests that physical activity beneficially influences brain function during adulthood, particularly frontal lobe-mediated cognitive processes, such as planning, scheduling, inhibition, and working memory. For our hunter-gatherer ancestors, times of famine interspersed with times of feast necessitated bouts of intense physical activity balanced by periods of rest. However, the sedentary lifestyle that pervades modern society has overridden the necessity for a physically active lifestyle. The impact of inactivity on disease processes has been the focus of much attention; the growing understanding that physical activity also has the benefit of enhancing cognitive performance strengthens the imperative for interventions that are successful in increasing physical activity, with the outcomes of promoting health and productivity. Population health and performance programs that promote physical activity provide benefits for employees and employers through impr...
Physical activity and the maintenance of cognitive function
Alzheimer's & Dementia, 2007
Experimental studies suggest that physical activity or exercise can prevent or delay the onset of age-related cognitive impairment or dementia. Several epidemiologic studies have attempted to address this issue by using widely varying definitions of physical activity as well as differing methods to assess cognitive function or dementia. Despite the variability in study design, longitudinal studies report that the risk of dementia, cognitive impairment, cognitive decline, and Alzheimer's disease is lower among persons engaging in high levels of physical activity, relative to those engaging in low levels of physical activity. There is also evidence of a dose-response relationship between physical activity and preservation of cognitive function, even though small increases in physical activity from a sedentary state can reap comparatively large incremental benefits. Reductions in the relative risk of vascular dementia associated with physical activity were weaker and more variable. Although many studies had a follow-up duration of around 5 years, at least one study has found evidence that exercise in midlife reduces the risk of dementia in late life. How interactions between physical activity and the APOE e4 allele affect the risk of cognitive impairment is inconsistent. The available epidemiologic studies support the concept that physical activity might prevent or delay the onset of cognitive decline. Whether that effect will translate into a reduction in the prevalence of dementia is unknown.
The Impact of Physical Activities on Cognitive Performance among Healthy Older Individuals
Brain Sciences
The population is aging in developed countries. This aging process results in many changes, both physical and mental. Over the years, there has been a gradual decline in the level of cognitive functions closely related to the ageing process, which is most often connected with ageing diseases such as dementia. So far, pharmacological treatment has not yet been able to cure this neurological disorder. Health policies around the world seek to find alternative programs and strategies to help a healthy population prevent cognitive decline and prolong active life. One such strategy appears to be physical activity. The aim of this review is to discuss the impact of physical activity on cognitive performance among healthy older individuals. The methodology of this study is based on a systematic electronic literature search of available studies found in three databases: PubMed, Web of Science and Scopus. The findings suggest that any physical activity in older age seems to have a positive im...
Alzheimer's & dementia (New York, N. Y.), 2017
Inconsistent results from previous studies of exercise and cognitive function suggest that rigorously designed randomized controlled trials are urgently needed. Here, we describe the design of the Intense Physical Activity and Cognition (IPAC) study, which will assess the impact of a 6-month high-intensity exercise intervention on cognitive function and biomarkers of dementia risk, compared with a 6-month moderate-intensity exercise intervention and control group (no study-related exercise). One-hundred and five cognitively healthy men and women aged between 60 and 80 years are randomized into a high-intensity exercise, moderate-intensity exercise, or control group. Individuals randomized to an exercise intervention undertake 6 months of cycle-based exercise twice a week, at 50 minutes per session. All participants undergo comprehensive neuropsychological testing, blood sampling, brain magnetic resonance imaging, fitness testing, and a body composition scan at baseline, 6 months (im...
Clinical Practice & Epidemiology in Mental Health
Background: Physical activity in the elderly is recommended by international guidelines to protect against cognitive decline and functional impairment. Objective: This Randomized Controlled Trial (RCT) was set up to verify whether medium-intensity physical activity in elderly people living in the community is effective in improving cognitive performance. Design: RCT with parallel and balanced large groups. Setting: Academic university hospital and Olympic gyms. Subjects: People aged 65 years old and older of both genders living at home holding a medical certificate for suitability in non-competitive physical activity. Methods: Participants were randomized to a 12-week, 3 sessions per week moderate physical activity program or to a control condition focused on cultural and recreational activities in groups of the same size and timing as the active intervention group. The active phase integrated a mixture of aerobic and anaerobic exercises, including drills of “life movements”, streng...
Capitalizing on cortical plasticity: influence of physical activity on cognition and brain function
Trends in Cognitive Sciences, 2007
Given the aging populations in many countries throughout the world, there is an increasing interest in lifestyle factors and interventions that will enhance the cognitive vitality of older adults and reduce the risk for age-related neurological disorders, such as Alzheimer's disease. In this review, we evaluate the hypothesis that physical activity and exercise might serve to protect, and also enhance, cognitive and brain function across the adult lifespan. To this end, we critically review three separate literatures that have examined the influence of physical activity and exercise on cognition, brain function and brain structure of adults, including epidemiological or prospective observational studies, randomized human clinical interventions and non-human animal studies. We suggest that this literature supports the claim that physical activity enhances cognitive and brain function, and protects against the development of neurodegenerative diseases. We discuss future directions to address currently unresolved questions, such as interactions between multiple lifestyle factors on offsetting or protecting against cognitive and neural decline, and conclude that physical activity is an inexpensive treatment that could have substantial preventative and restorative properties for cognitive and brain function.