Exercise as an intervention for the age-related decline in neural metabolic support

Exercise as an intervention for the age-related decline in neural metabolic support

To identify interventions for brain aging, we must first identify the processes in which we hope to intervene. Brain aging is a period of decreasing functional capacity and increasing vulnerability, which reflect a reduction in morphological organization and perhaps degeneration. Since life is ultim...

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Bibliographic Details
Published in:Frontiers in aging neuroscience Vol. 2
Main Authors: Anderson, Brenda J, Greenwood, Shayri J, McCloskey, Daniel
Format: Journal Article
Language:English
Published: Switzerland Frontiers Research Foundation 2010
Subjects:
Age
Aging
Blood flow
Cardiovascular system
Cerebral blood flow
Collaboration
Cytochrome
Energy
Exercise
Glucose
Hippocampus
Ischemia
Metabolism
Neostriatum
Neurodegeneration
Neuroscience
Neurosciences
Potassium
Seizures
United States > US
capillary density
motor cortex
striatum
cytochrome oxidase
exercise
seizures
metabolism
physical activity
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Summary:To identify interventions for brain aging, we must first identify the processes in which we hope to intervene. Brain aging is a period of decreasing functional capacity and increasing vulnerability, which reflect a reduction in morphological organization and perhaps degeneration. Since life is ultimately dependent upon the ability to maintain cellular organization through metabolism, this review explores evidence for a decline in neural metabolic support during aging, which includes a reduction in whole brain cerebral blood flow, and cellular metabolic capacity. Capillary density may also decrease with age, although the results are less clear. Exercise may be a highly effective intervention for brain aging, because it improves the cardiovascular system as a whole, and increases regional capillary density and neuronal metabolic capacity. Although the evidence is strongest for motor regions, more work may yield additional evidence for exercise-related improvement in metabolic support in non-motor regions. The protective effects of exercise may be specific to brain region and the type of insult. For example, exercise protects striatal cells from ischemia, but it produces mixed results after hippocampal seizures. Exercise can improve metabolic support and bioenergetic capacity in adult animals, but it remains to be determined whether it has similar effects in aging animals. What is clear is that exercise can influence the multiple levels of support necessary for maintaining optimal neuronal function, which is unique among proposed interventions for aging.
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Edited by: Arthur F. Kramer, University of Illinois at Urbana-Champaign, USA
Reviewed by: Phil Holmes, Princeton University, USA; Justin Rhodes, University of Illinois at Urbana-Champaign, USA; Margaret Wong-Riley, Medical College of Wisconsin, USA
ISSN:1663-4365
1663-4365
DOI:10.3389/fnagi.2010.00030