Mechanical properties of the gastrocnemius aponeurosis in wild turkeys

Mechanical properties of the gastrocnemius aponeurosis in wild turkeys

In many muscles, the tendinous structures include both an extramuscular free tendon as well as a sheet-like aponeurosis. In both free tendons and aponeuroses the collagen fascicles are oriented primarily longitudinally, along the muscle's line of action. It is generally assumed that this axis r...

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Published in:Integrative and comparative biology Vol. 49; no. 1; pp. 51 - 58
Main Authors: Azizi, Emanuel, Halenda, Gregory M., Roberts, Thomas J.
Format: Journal Article
Language:English
Published: England Oxford University Press 01-07-2009
Oxford Publishing Limited (England)
Subjects:
Anatomy & physiology
Biomaterials: Properties, Variation and Evolution
Biomechanics
Collagens
Materials tests
Mechanical properties
Muscle contraction
Muscles
Muscular system
Safety factors
Sprains and strains
Tendons
Turkeys
Wildfowl
Youngs modulus
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Summary:In many muscles, the tendinous structures include both an extramuscular free tendon as well as a sheet-like aponeurosis. In both free tendons and aponeuroses the collagen fascicles are oriented primarily longitudinally, along the muscle's line of action. It is generally assumed that this axis represents the direction of loading for these structures. This assumption is well founded for free tendons, but aponeuroses undergo a more complex loading regime. Unlike free tendons, aponeuroses surround a substantial portion of the muscle belly and are therefore loaded both parallel (longitudinal) and perpendicular (transverse) to a muscle's line of action when contracting muscles bulge to maintain a constant volume. Given this biaxial loading pattern, it is critical to understand the mechanical properties of aponeuroses in both the longitudinal and transverse directions. In this study, we use uniaxial testing of isolated tissue samples from the aponeurosis of the lateral gastrocnemius of wild turkeys to determine mechanical properties of samples loaded longitudinally (along the muscle's line of action) and transversely (orthogonal to the line of action). We find that the aponeurosis has a significantly higher Young's modulus in the longitudinal than in the transverse direction. Our results also show that aponeuroses can behave as efficient springs in both the longitudinal and transverse directions, losing little energy to hysteresis. We also test the failure properties of aponeuroses to quantify the likely safety factor with which these structures operate during muscular force production. These results provide an essential foundation for understanding the mechanical function of aponeuroses as biaxially loaded biological springs.
Bibliography:From the symposium, “Biomaterials: Properties, Variation and Evolution” presented at the annual meeting of the Society for Integrative and Comparative Biology, January 3–7, 2009, at Boston, Massachusetts.
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ArticleID:icp006
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ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1540-7063
1557-7023
DOI:10.1093/icb/icp006