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Cardiovascular Fitness, Cortical Plasticity, and Aging
Cardiovascular Fitness, Cortical Plasticity, and Aging
by Scalf, Paige , Elavsky, Steriani , Webb, Andrew , Colcombe, Stanley J. , Jerome, Gerry J. , Marquez, David X. , Erickson, Kirk I. , Kramer, Arthur F. , Cohen, Neal J. , McAuley, Edward , Greenough, William T.
in Age / Aged / Aging / Aging - physiology / Animal models / Behavioral neuroscience / Brain / Brain - growth & development / Brain - physiology / Cardiovascular System - growth & development / Cerebral Cortex - growth & development / Cerebral Cortex - physiology / Cognition / Cognition & reasoning / Cognitive ability / Cross-Sectional Studies / Demography / Exercise / Exercise - physiology / Human aging / Humans / Hypertension / Magnetic resonance imaging / Neuronal Plasticity - physiology / Neurons - physiology / Older adults / Physical Fitness / Psychology / Social Sciences / Synapses - physiology
2004
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Cardiovascular Fitness, Cortical Plasticity, and Aging
by Scalf, Paige , Elavsky, Steriani , Webb, Andrew , Colcombe, Stanley J. , Jerome, Gerry J. , Marquez, David X. , Erickson, Kirk I. , Kramer, Arthur F. , Cohen, Neal J. , McAuley, Edward , Greenough, William T.
in Age / Aged / Aging / Aging - physiology / Animal models / Behavioral neuroscience / Brain / Brain - growth & development / Brain - physiology / Cardiovascular System - growth & development / Cerebral Cortex - growth & development / Cerebral Cortex - physiology / Cognition / Cognition & reasoning / Cognitive ability / Cross-Sectional Studies / Demography / Exercise / Exercise - physiology / Human aging / Humans / Hypertension / Magnetic resonance imaging / Neuronal Plasticity - physiology / Neurons - physiology / Older adults / Physical Fitness / Psychology / Social Sciences / Synapses - physiology
2004
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Cardiovascular Fitness, Cortical Plasticity, and Aging
Cardiovascular Fitness, Cortical Plasticity, and Aging
by Scalf, Paige , Elavsky, Steriani , Webb, Andrew , Colcombe, Stanley J. , Jerome, Gerry J. , Marquez, David X. , Erickson, Kirk I. , Kramer, Arthur F. , Cohen, Neal J. , McAuley, Edward , Greenough, William T.
in Age / Aged / Aging / Aging - physiology / Animal models / Behavioral neuroscience / Brain / Brain - growth & development / Brain - physiology / Cardiovascular System - growth & development / Cerebral Cortex - growth & development / Cerebral Cortex - physiology / Cognition / Cognition & reasoning / Cognitive ability / Cross-Sectional Studies / Demography / Exercise / Exercise - physiology / Human aging / Humans / Hypertension / Magnetic resonance imaging / Neuronal Plasticity - physiology / Neurons - physiology / Older adults / Physical Fitness / Psychology / Social Sciences / Synapses - physiology
2004

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Cardiovascular Fitness, Cortical Plasticity, and Aging
Cardiovascular Fitness, Cortical Plasticity, and Aging
Journal Article

Cardiovascular Fitness, Cortical Plasticity, and Aging

Scalf, Paige,
Elavsky, Steriani,
Webb, Andrew,
Colcombe, Stanley J.,
Jerome, Gerry J.,
Marquez, David X.,
Erickson, Kirk I.,
Kramer, Arthur F.,
Cohen, Neal J.,
McAuley, Edward,
Greenough, William T.
2004
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Overview
Cardiovascular fitness is thought to offset declines in cognitive performance, but little is known about the cortical mechanisms that underlie these changes in humans. Research using animal models shows that aerobic training increases cortical capillary supplies, the number of synaptic connections, and the development of new neurons. The end result is a brain that is more efficient, plastic, and adaptive, which translates into better performance in aging animals. Here, in two separate experiments, we demonstrate for the first time to our knowledge, in humans that increases in cardiovascular fitness results in increased functioning of key aspects of the attentional network of the brain during a cognitively challenging task. Specifically, highly fit (Study 1) or aerobically trained (Study 2) persons show greater task-related activity in regions of the prefrontal and parietal cortices that are involved in spatial selection and inhibitory functioning, when compared with low-fit (Study 1) or nonaerobic control (Study 2) participants. Additionally, in both studies there exist groupwise differences in activation of the anterior cingulate cortex, which is thought to monitor for conflict in the attentional system, and signal the need for adaptation in the attentional network. These data suggest that increased cardiovascular fitness can affect improvements in the plasticity of the aging human brain, and may serve to reduce both biological and cognitive senescence in humans.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

Age

/ Aged

/ Aging

/ Aging - physiology

/ Animal models

/ Behavioral neuroscience

/ Brain

/ Brain - growth & development

/ Brain - physiology

/ Cardiovascular System - growth & development

/ Cerebral Cortex - growth & development

/ Cerebral Cortex - physiology

/ Cognition

/ Cognition & reasoning

/ Cognitive ability

/ Cross-Sectional Studies

/ Demography

/ Exercise

/ Exercise - physiology

/ Human aging

/ Humans

/ Hypertension

/ Magnetic resonance imaging

/ Neuronal Plasticity - physiology

/ Neurons - physiology

/ Older adults

/ Physical Fitness

/ Psychology

/ Social Sciences

/ Synapses - physiology

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