Identification of a Strain Energy Function (SEF) is used when describing the complex mechanical properties of soft biological tissues such as the arterial wall. Classic SEFs, such as the one proposed by Chuong and Fung (J. Biomech. Eng. 105(3) (1983) 268), have been mostly phenomenological and neglect the particularities of the wall structure. A more structural model was proposed by Holzapfel et al. (J. Elasticity 61 (2000) 1-48.) when they included the characteristic angle at which the collagen fibers are helically wrapped, resulting in an excellent SEF for applications such as finite element modeling. We have expanded upon the idea of structural SEFs by including not only the wavy nature of the collagen but also the fraction of both elast...
Calculating high stress concentration within carotid atherosclerotic plaques has been shown to be co...
Maladaptive remodelling of structurally significant collagen fibres in the arterial wall is believed...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
The vascular wall exhibits nonlinear anisotropic mechanical properties. The identification of a stra...
Stiffening of the aorta with progressing age leads to decrease of aortic compliance and thus to an i...
Elastin and collagen have been described as the dominant passive load bearing proteins in the artery...
Understanding the mechanical behavior of arterial walls under various physiological loading and boun...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
A pseudo-strain energy function (pseudo-SEF) describing the biomechanical properties of large condui...
Abstract Background Structural constitutive models of vascular wall integrate information on composi...
Background Cardiovascular system is directly affected by mechanical loads such as blood pr...
As the interaction between tissue adaptation and the mechanical condition within tissues is complex,...
We compare two constitutive models proposed to model the elastinous constituents of an artery. Holza...
The passive biomechanical behavior of blood vessels is generally modeled by a parallel arrangement o...
A fundamental understanding of the mechanical properties of the extracellular matrix (ECM) is critic...
Calculating high stress concentration within carotid atherosclerotic plaques has been shown to be co...
Maladaptive remodelling of structurally significant collagen fibres in the arterial wall is believed...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
The vascular wall exhibits nonlinear anisotropic mechanical properties. The identification of a stra...
Stiffening of the aorta with progressing age leads to decrease of aortic compliance and thus to an i...
Elastin and collagen have been described as the dominant passive load bearing proteins in the artery...
Understanding the mechanical behavior of arterial walls under various physiological loading and boun...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
A pseudo-strain energy function (pseudo-SEF) describing the biomechanical properties of large condui...
Abstract Background Structural constitutive models of vascular wall integrate information on composi...
Background Cardiovascular system is directly affected by mechanical loads such as blood pr...
As the interaction between tissue adaptation and the mechanical condition within tissues is complex,...
We compare two constitutive models proposed to model the elastinous constituents of an artery. Holza...
The passive biomechanical behavior of blood vessels is generally modeled by a parallel arrangement o...
A fundamental understanding of the mechanical properties of the extracellular matrix (ECM) is critic...
Calculating high stress concentration within carotid atherosclerotic plaques has been shown to be co...
Maladaptive remodelling of structurally significant collagen fibres in the arterial wall is believed...
This review article is concerned with the mathematical modelling of the mechanical properties of the...