Effects of high- and low-velocity resistance training on the contractile properties of skeletal muscle fibers from young and older humans

Effects of high- and low-velocity resistance training on the contractile properties of skeletal muscle fibers from young and older humans

A two-arm, prospective, randomized, controlled trial study was conducted to investigate the effects of movement velocity during progressive resistance training (PRT) on the size and contractile properties of individual fibers from human vastus lateralis muscles. The effects of age and sex were exami...

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Bibliographic Details
Published in:Journal of applied physiology (1985) Vol. 111; no. 4; pp. 1021 - 1030
Main Authors: CLAFLIN, Dennis R, LARKIN, Lisa M, FAULKNER, John A, ASHTON-MILLER, James A, CEDERNA, Paul S, HOROWITZ, Jeffrey F, ALEXANDER, Neil B, COLE, Neil M, GALECKI, Andrzej T, SHU CHEN, NYQUIST, Linda V, CARLSON, Bruce M
Format: Journal Article
Language:English
Published: Bethesda, MD American Physiological Society 01-10-2011
Subjects:
Adult
Age differences
Age Factors
Aged
Aged, 80 and over
Biological and medical sciences
Cells
Clinical trials
Female
Fundamental and applied biological sciences. Psychology
Humans
Male
Movement - physiology
Muscle Contraction - physiology
Muscle Fibers, Fast-Twitch - physiology
Musculoskeletal system
Prospective Studies
Resistance Training - methods
Sex Factors
Tissues
Young Adult
Human
Vertebrata
Senescence
Mammalia
Ageing
permeabilized single fibers
Muscular fiber
aging
Striated muscle
Velocity
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Summary:A two-arm, prospective, randomized, controlled trial study was conducted to investigate the effects of movement velocity during progressive resistance training (PRT) on the size and contractile properties of individual fibers from human vastus lateralis muscles. The effects of age and sex were examined by a design that included 63 subjects organized into four groups: young (20-30 yr) men and women, and older (65-80 yr) men and women. In each group, one-half of the subjects underwent a traditional PRT protocol that involved shortening contractions at low velocities against high loads, while the other half performed a modified PRT protocol that involved contractions at 3.5 times higher velocity against reduced loads. Muscles were sampled by needle biopsy before and after the 14-wk PRT program, and functional tests were performed on permeabilized individual fiber segments isolated from the biopsies. We tested the hypothesis that, compared with low-velocity PRT, high-velocity PRT results in a greater increase in the cross-sectional area, force, and power of type 2 fibers. Both types of PRT increased the cross-sectional area, force, and power of type 2 fibers by 8-12%, independent of the sex or age of the subject. Contrary to our hypothesis, the velocity at which the PRT was performed did not affect the fiber-level outcomes substantially. We conclude that, compared with low-velocity PRT, resistance training performed at velocities up to 3.5 times higher against reduced loads is equally effective for eliciting an adaptive response in type 2 fibers from human skeletal muscle.
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ISSN:8750-7587
1522-1601
DOI:10.1152/japplphysiol.01119.2010