Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function

With the aging of the baby boom population and an increased life expectancy, individuals aged 65 years and older are the fastest growing segment of our population. Aging brings about changes in skeletal muscle such as reduced muscle strength and mass, as well as cellular deficits such as increased...

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Main Author: Flack, Kyle
Other Authors: Human Nutrition, Foods, and Exercise
Format: Others
Published: Virginia Tech 2014
Subjects:
Online Access:http://hdl.handle.net/10919/25143
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spelling ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-251432020-09-29T05:31:23Z Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function Flack, Kyle Human Nutrition, Foods, and Exercise Davy, Brenda M. Winett, Richard A. Frisard, Madlyn I. Hulver, Matthew W. Davy, Kevin P. Resistance Training Mitochondrial Function Aging With the aging of the baby boom population and an increased life expectancy, individuals aged 65 years and older are the fastest growing segment of our population. Aging brings about changes in skeletal muscle such as reduced muscle strength and mass, as well as cellular deficits such as increased production of reactive oxygen species (ROS), and mitochondrial DNA (MtDNA) deletions and mutations. Muscle mass declines at a rate of 1-2% each year after the age of 50, leading to muscle weakness, functional impairments, loss of independence, and an increase in falls. Additional declines in muscle mass and reduced muscle strength may result in a lower resting metabolic rate, reduced lipid oxidative capacity, increased adiposity, and insulin resistance. The rising number of individuals aged 65+ will increase demands on health care and health care costs, possibly leading to inadequate public resources and less care for the aged. This large societal impact, coupled with the aging of our population, suggests a clear need for methods that will improve the aging phenotype to enhance functionality, quality of life, and overall health for our aging population. This investigation aspires to delve into a relatively unexplored area of aging research and evaluate potential means that could help improve the aging phenotype. The associated mitochondrial impairments, mitochondrial mediated apoptosis, and mitochondrial DNA (MtDNA) deletions and mutations that accompany aging lead to a decline in physical fitness and oxidative capacity, and exercise has been shown to reverse or help prevent many of these disturbances. Resistance exercise training (RT) is currently the most effective known strategy to stimulate skeletal muscle hypertrophy and increase strength. Strength gains after RT lead to an improvement in activities of daily living and quality of life. There is some evidence suggesting that RT may lead to increased antioxidant enzyme capacity, decreased ROS production and increased electron transport chain (ETC) function in older individuals. The present study will lay a foundation for future research and further developments in the area of RT, mitochondrial function and aging. Ph. D. 2014-01-24T09:00:48Z 2014-01-24T09:00:48Z 2014-01-23 Dissertation vt_gsexam:2232 http://hdl.handle.net/10919/25143 In Copyright http://rightsstatements.org/vocab/InC/1.0/ ETD application/pdf Virginia Tech
collection NDLTD
format Others
sources NDLTD
topic Resistance Training
Mitochondrial Function
Aging
spellingShingle Resistance Training
Mitochondrial Function
Aging
Flack, Kyle
Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function
description With the aging of the baby boom population and an increased life expectancy, individuals aged 65 years and older are the fastest growing segment of our population. Aging brings about changes in skeletal muscle such as reduced muscle strength and mass, as well as cellular deficits such as increased production of reactive oxygen species (ROS), and mitochondrial DNA (MtDNA) deletions and mutations. Muscle mass declines at a rate of 1-2% each year after the age of 50, leading to muscle weakness, functional impairments, loss of independence, and an increase in falls. Additional declines in muscle mass and reduced muscle strength may result in a lower resting metabolic rate, reduced lipid oxidative capacity, increased adiposity, and insulin resistance. The rising number of individuals aged 65+ will increase demands on health care and health care costs, possibly leading to inadequate public resources and less care for the aged. This large societal impact, coupled with the aging of our population, suggests a clear need for methods that will improve the aging phenotype to enhance functionality, quality of life, and overall health for our aging population. This investigation aspires to delve into a relatively unexplored area of aging research and evaluate potential means that could help improve the aging phenotype. The associated mitochondrial impairments, mitochondrial mediated apoptosis, and mitochondrial DNA (MtDNA) deletions and mutations that accompany aging lead to a decline in physical fitness and oxidative capacity, and exercise has been shown to reverse or help prevent many of these disturbances. Resistance exercise training (RT) is currently the most effective known strategy to stimulate skeletal muscle hypertrophy and increase strength. Strength gains after RT lead to an improvement in activities of daily living and quality of life. There is some evidence suggesting that RT may lead to increased antioxidant enzyme capacity, decreased ROS production and increased electron transport chain (ETC) function in older individuals. The present study will lay a foundation for future research and further developments in the area of RT, mitochondrial function and aging. === Ph. D.
author2 Human Nutrition, Foods, and Exercise
author_facet Human Nutrition, Foods, and Exercise
Flack, Kyle
author Flack, Kyle
author_sort Flack, Kyle
title Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function
title_short Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function
title_full Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function
title_fullStr Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function
title_full_unstemmed Effects of Resistance Training on aged Skeletal Muscle and Mitochondrial Function
title_sort effects of resistance training on aged skeletal muscle and mitochondrial function
publisher Virginia Tech
publishDate 2014
url http://hdl.handle.net/10919/25143
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