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Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
by Rader, Erik P. , Baker, Brent A. , Ensey, James , Naimo, Marshall A.
in Adaptation / Adaptation, Physiological / Analysis / Animals / Ankle / Biomechanical Phenomena / Complications and side effects / Cross-Sectional Studies / Diabetes / Epidemiology / Ethanol / Exercise / Gene expression / Health aspects / Hindlimb - physiopathology / Internal Medicine / Isotonic Contraction - physiology / Laboratory animals / Male / Medicine / Medicine & Public Health / Mice / Mice, Inbred C57BL / Models, Animal / Morphology / Muscle Fibers, Skeletal - physiology / Muscle proteins / Muscle Strength Dynamometer / Muscle, Skeletal - physiopathology / Muscular Atrophy - etiology / Orthopedics / Pathophysiology of musculoskeletal disorders / Physical Conditioning, Animal - instrumentation / Physical Conditioning, Animal - physiology / Physiological aspects / Rehabilitation / Research Article / Rheumatology / Sports Medicine / Type 2 diabetes
2017
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Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
by Rader, Erik P. , Baker, Brent A. , Ensey, James , Naimo, Marshall A.
in Adaptation / Adaptation, Physiological / Analysis / Animals / Ankle / Biomechanical Phenomena / Complications and side effects / Cross-Sectional Studies / Diabetes / Epidemiology / Ethanol / Exercise / Gene expression / Health aspects / Hindlimb - physiopathology / Internal Medicine / Isotonic Contraction - physiology / Laboratory animals / Male / Medicine / Medicine & Public Health / Mice / Mice, Inbred C57BL / Models, Animal / Morphology / Muscle Fibers, Skeletal - physiology / Muscle proteins / Muscle Strength Dynamometer / Muscle, Skeletal - physiopathology / Muscular Atrophy - etiology / Orthopedics / Pathophysiology of musculoskeletal disorders / Physical Conditioning, Animal - instrumentation / Physical Conditioning, Animal - physiology / Physiological aspects / Rehabilitation / Research Article / Rheumatology / Sports Medicine / Type 2 diabetes
2017
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Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
by Rader, Erik P. , Baker, Brent A. , Ensey, James , Naimo, Marshall A.
in Adaptation / Adaptation, Physiological / Analysis / Animals / Ankle / Biomechanical Phenomena / Complications and side effects / Cross-Sectional Studies / Diabetes / Epidemiology / Ethanol / Exercise / Gene expression / Health aspects / Hindlimb - physiopathology / Internal Medicine / Isotonic Contraction - physiology / Laboratory animals / Male / Medicine / Medicine & Public Health / Mice / Mice, Inbred C57BL / Models, Animal / Morphology / Muscle Fibers, Skeletal - physiology / Muscle proteins / Muscle Strength Dynamometer / Muscle, Skeletal - physiopathology / Muscular Atrophy - etiology / Orthopedics / Pathophysiology of musculoskeletal disorders / Physical Conditioning, Animal - instrumentation / Physical Conditioning, Animal - physiology / Physiological aspects / Rehabilitation / Research Article / Rheumatology / Sports Medicine / Type 2 diabetes
2017

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Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training
Journal Article

Agonist muscle adaptation accompanied by antagonist muscle atrophy in the hindlimb of mice following stretch-shortening contraction training

Rader, Erik P.,
Baker, Brent A.,
Ensey, James,
Naimo, Marshall A.
2017
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Overview
Background The vast majority of dynamometer-based animal models for investigation of the response to chronic muscle contraction exposure has been limited to analysis of isometric, lengthening, or shortening contractions in isolation. An exception to this has been the utilization of a rat model to study stretch-shortening contractions (SSCs), a sequence of consecutive isometric, lengthening, and shortening contractions common during daily activity and resistance-type exercise. However, the availability of diverse genetic strains of rats is limited. Therefore, the purpose of the present study was to develop a dynamometer-based SSC training protocol to induce increased muscle mass and performance in plantarflexor muscles of mice. Methods Young (3 months old) C57BL/6 mice were subjected to 1 month of plantarflexion SSC training. Hindlimb muscles were analyzed for muscle mass, quantitative morphology, myogenesis/myopathy relevant gene expression, and fiber type distribution. Results The main aim of the research was achieved when training induced a 2-fold increase in plantarflexion peak torque output and a 19% increase in muscle mass for the agonist plantaris (PLT) muscle. In establishing this model, several outcomes emerged which raised the value of the model past that of being a mere recapitulation of the rat model. An increase in the number of muscle fibers per transverse muscle section accounted for the PLT muscle mass gain while the antagonist tibialis anterior (TA) muscle atrophied by 30% with preferential atrophy of type IIb and IIx fibers. These alterations were accompanied by distinct gene expression profiles. Conclusions The findings confirm the development of a stretch-shortening contraction training model for the PLT muscle of mice and demonstrate that increased cross-sectional fiber number can occur following high-intensity SSC training. Furthermore, the TA muscle atrophy provides direct evidence for the concept of muscle imbalance in phasic non-weight bearing muscles, a concept largely characterized based on clinical observation of patients. The susceptibility to this imbalance is demonstrated to be selective for the type IIb and IIx muscle fiber types. Overall, the study highlights the importance of considering muscle fiber number modulation and the effect of training on surrounding muscles in exercise comprised of SSCs.
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V
Subject

Adaptation

/ Adaptation, Physiological

/ Analysis

/ Animals

/ Ankle

/ Biomechanical Phenomena

/ Complications and side effects

/ Cross-Sectional Studies

/ Diabetes

/ Epidemiology

/ Ethanol

/ Exercise

/ Gene expression

/ Health aspects

/ Hindlimb - physiopathology

/ Internal Medicine

/ Isotonic Contraction - physiology

/ Laboratory animals

/ Male

/ Medicine

/ Medicine & Public Health

/ Mice

/ Mice, Inbred C57BL

/ Models, Animal

/ Morphology

/ Muscle Fibers, Skeletal - physiology

/ Muscle proteins

/ Muscle Strength Dynamometer

/ Muscle, Skeletal - physiopathology

/ Muscular Atrophy - etiology

/ Orthopedics

/ Pathophysiology of musculoskeletal disorders

/ Physical Conditioning, Animal - instrumentation

/ Physical Conditioning, Animal - physiology

/ Physiological aspects

/ Rehabilitation

/ Research Article

/ Rheumatology

/ Sports Medicine

/ Type 2 diabetes

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