Collagen fibre remodelling is a strain dependent process which is stimulated by the degradation of existing collagen. To date, literature has focussed on strain dependent degradation of pure collagen or structurally simple collagenous tissues, often overlooking degradation within more complex, heterogenous soft tissues. The aim of this study is to identify, for the first time, the strain dependent degradation behaviour and mechanical factors influencing collagen degradation in arterial tissue using a combined experimental and numerical approach. To achieve this, structural analysis was carried out using small angle light scattering to determine the fibre level response due to strain induced degradation. Next, strain dependent degradation ra...
The mechanical integrity of the arterial wall is vital to the health of the individual. This integr...
As degenerative joint diseases such as osteoarthritis (OA) progress, the matrix constituents, partic...
Although the extracellular matrix (ECM) is the key determinant of the mechanical behavior and stabil...
Collagen fibre remodelling is a strain dependent process which is stimulated by the degradation of e...
Collagen fibre degradation is a strain-dependent process, whereby the magnitude of experienced strai...
Maladaptive remodelling of structurally significant collagen fibres in the arterial wall is believed...
AbstractThis study investigates how the collagen fiber structure influences the enzymatic degradatio...
Collagen fiber anisotropy has a significant influence on the function and mechanical properties of c...
Thesis (Ph.D.)--Boston UniversityThe dynamic mechanical behavior of arteries is essential to a prope...
We use enzymatic manipulation methods to investigate the individual and combined roles of elastin an...
Collagenous tissues, made of collagen molecules, such as tendon and bone, are intriguing materials t...
AbstractThe complex network structure of elastin and collagen extracellular matrix (ECM) forms the p...
Collagenous tissues, made of collagen molecules, such as tendon and bone, are intriguing materials t...
Similar to native cardiovascular tissues, the mechanical properties of engineered cardiovascular con...
Elastin and collagen have been described as the dominant passive load bearing proteins in the artery...
The mechanical integrity of the arterial wall is vital to the health of the individual. This integr...
As degenerative joint diseases such as osteoarthritis (OA) progress, the matrix constituents, partic...
Although the extracellular matrix (ECM) is the key determinant of the mechanical behavior and stabil...
Collagen fibre remodelling is a strain dependent process which is stimulated by the degradation of e...
Collagen fibre degradation is a strain-dependent process, whereby the magnitude of experienced strai...
Maladaptive remodelling of structurally significant collagen fibres in the arterial wall is believed...
AbstractThis study investigates how the collagen fiber structure influences the enzymatic degradatio...
Collagen fiber anisotropy has a significant influence on the function and mechanical properties of c...
Thesis (Ph.D.)--Boston UniversityThe dynamic mechanical behavior of arteries is essential to a prope...
We use enzymatic manipulation methods to investigate the individual and combined roles of elastin an...
Collagenous tissues, made of collagen molecules, such as tendon and bone, are intriguing materials t...
AbstractThe complex network structure of elastin and collagen extracellular matrix (ECM) forms the p...
Collagenous tissues, made of collagen molecules, such as tendon and bone, are intriguing materials t...
Similar to native cardiovascular tissues, the mechanical properties of engineered cardiovascular con...
Elastin and collagen have been described as the dominant passive load bearing proteins in the artery...
The mechanical integrity of the arterial wall is vital to the health of the individual. This integr...
As degenerative joint diseases such as osteoarthritis (OA) progress, the matrix constituents, partic...
Although the extracellular matrix (ECM) is the key determinant of the mechanical behavior and stabil...