Add to ORKGAlthough mechanical loading correlate to multi-hierarchical changes, the multiscale response during tendon damage remains not yet fully understood. Therefore, this thesis assessed the multiscale structure-function mechanisms in response to different levels and durations of strains in GAG and un/depleted Achilles tendons. At the nano/macroscales, increased levels and durations of strains resulted in increased changes in form and function. This thesis identifies a variety of multiscale properties that may contribute to the understanding of the mechanism of tendon pathology
Tendons are responsible for transmitting the forces produced by the muscle to the bones which result...
Mid-portion Achilles tendinopathy (MAT) alters the normal three-dimensional (3D) morphology of the A...
PURPOSE: Tendons behave viscoelastically and exhibit adaptive responses to conditions of increased l...
The specific viscoelastic mechanical properties of Achilles tendons are highly dependent on the stru...
While it is known that musculotendon units adapt to their load environments, there is only a limited...
The extracellular matrix (ECM) is a major component of the biomechanical environment with which tend...
Purpose. Tendons behave viscoelastically and exhibit adaptive responses to conditions of increased l...
Tendons are fibrous connective tissues which are saturated with fluid. Cells within the tendon cont...
This paper aims to highlight the need for a refined tendon model to reproduce the main mechanical fe...
Achilles tendon material properties and geometry are altered in Achilles tendinopathy. The purpose o...
A precise analysis of the mechanical response of collagen fibrils in tendon tissue is critical to un...
This dataset is originally used in: I. Silva Barreto, M. Pierantoni, M. Hammerman, E. Törnquist, S....
Mechano-regulation during tendon healing, i.e. the relationship between mechanical stimuli and cellu...
International audienceAlthough the mechanical properties of ligament and tendon are well documented ...
Understanding tendon mechanobiology is important for gaining insight into the development of tendon ...
Tendons are responsible for transmitting the forces produced by the muscle to the bones which result...
Mid-portion Achilles tendinopathy (MAT) alters the normal three-dimensional (3D) morphology of the A...
PURPOSE: Tendons behave viscoelastically and exhibit adaptive responses to conditions of increased l...
The specific viscoelastic mechanical properties of Achilles tendons are highly dependent on the stru...
While it is known that musculotendon units adapt to their load environments, there is only a limited...
The extracellular matrix (ECM) is a major component of the biomechanical environment with which tend...
Purpose. Tendons behave viscoelastically and exhibit adaptive responses to conditions of increased l...
Tendons are fibrous connective tissues which are saturated with fluid. Cells within the tendon cont...
This paper aims to highlight the need for a refined tendon model to reproduce the main mechanical fe...
Achilles tendon material properties and geometry are altered in Achilles tendinopathy. The purpose o...
A precise analysis of the mechanical response of collagen fibrils in tendon tissue is critical to un...
This dataset is originally used in: I. Silva Barreto, M. Pierantoni, M. Hammerman, E. Törnquist, S....
Mechano-regulation during tendon healing, i.e. the relationship between mechanical stimuli and cellu...
International audienceAlthough the mechanical properties of ligament and tendon are well documented ...
Understanding tendon mechanobiology is important for gaining insight into the development of tendon ...
Tendons are responsible for transmitting the forces produced by the muscle to the bones which result...
Mid-portion Achilles tendinopathy (MAT) alters the normal three-dimensional (3D) morphology of the A...
PURPOSE: Tendons behave viscoelastically and exhibit adaptive responses to conditions of increased l...