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Aponeurosis structure-function properties: Evidence of heterogeneity and implications for muscle function.
Wheatley, Benjamin B; Dyer, Olivia L; Tully, Emily E; Seeley, Mark A.
Afiliación
  • Wheatley BB; Department of Mechanical Engineering, Bucknell University, Lewisburg, PA. Electronic address: b.wheatley@bucknell.edu.
  • Dyer OL; Musculoskeletal Institute, Geisinger, Danville, PA.
  • Tully EE; Department of Mechanical Engineering, Bucknell University, Lewisburg, PA.
  • Seeley MA; Musculoskeletal Institute, Geisinger, Danville, PA.
Acta Biomater ; 168: 298-308, 2023 09 15.
Article en En | MEDLINE | ID: mdl-37392931
Aponeurosis is a sheath-like connective tissue that aids in force transmission from muscle to tendon and can be found throughout the musculoskeletal system. The key role of aponeurosis in muscle-tendon unit mechanics is clouded by a lack of understanding of aponeurosis structure-function properties. This work aimed to determine the heterogeneous material properties of porcine triceps brachii aponeurosis tissue with materials testing and evaluate heterogeneous aponeurosis microstructure with scanning electron microscopy. We found that aponeurosis may exhibit more microstructural collagen waviness in the insertion region (near the tendon) compared to the transition region (near the muscle midbelly) (1.20 versus 1.12, p = 0.055), which and a less stiff stress-strain response in the insertion versus transition regions (p < 0.05). We also showed that different assumptions of aponeurosis heterogeneity, specifically variations in elastic modulus with location can alter the stiffness (by more than 10x) and strain (by approximately 10% muscle fiber strain) of a finite element model of muscle and aponeurosis. Collectively, these results suggest that aponeurosis heterogeneity could be due to variations in tissue microstructure and that different approaches to modeling tissue heterogeneity alters the behavior of computational models of muscle-tendon units. STATEMENT OF SIGNIFICANCE: Aponeurosis is a connective tissue found in many muscle tendon units that aids in force transmission, yet little is known about the specific material properties of aponeurosis. This work aimed to determine how the properties of aponeurosis tissue varied with location. We found that aponeurosis exhibits more microstructural waviness near the tendon compared to near the muscle midbelly, which was associated with differences in tissue stiffness. We also showed that different variations in aponeurosis modulus (stiffness) can alter the stiffness and stretch of a computer model of muscle tissue. These results show that assuming uniform aponeurosis structure and modulus, which is common, may lead to inaccurate models of the musculoskeletal system.
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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Músculo Esquelético / Aponeurosis Límite: Animals Idioma: En Revista: Acta Biomater Año: 2023 Tipo del documento: Article Pais de publicación: Reino Unido

Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Músculo Esquelético / Aponeurosis Límite: Animals Idioma: En Revista: Acta Biomater Año: 2023 Tipo del documento: Article Pais de publicación: Reino Unido