Healing in soft biological tissues is a chain of events on different time and length scales. This work presents a computational framework to capture and couple important mechanical, chemical and biological aspects of healing. A molecular-level damage in collagen, i.e., the interstrand delamination, is addressed as source of plastic deformation in tissues. This mechanism initiates a biochemical response and starts the chain of healing. In particular, damage is considered to be the stimulus for the production of matrix metalloproteinases and growth factors which in turn, respectively, degrade and produce collagen. Due to collagen turnover, the volume of the tissue changes, which can result either in normal or pathological healing. To capture ...
A new material model is proposed for the description of stress-softening observed in cyclic tension ...
Material properties of soft tissues are highly conditioned by the hierarchical structure of this kin...
Numerical models have become one of the most powerful tools in biomechanics and mechanobiology allow...
Healing in soft biological tissues is a chain of events on different time and length scales. This wo...
Remodelling of soft biological tissue is characterized by interacting biochemical and biomechanical ...
Damage in soft biological tissues causes an inflammatory reaction that initiates a chain of events t...
The final publication is available at Springer via http://dx.doi.org/10.1007/s11831-014-9142-8Comput...
Mechanics of soft collagenous tissues is highly influenced by its structured histological macroscopi...
Living biological tissues are complex structures that have the capacity of evolving in response to e...
We propose a mechanical model to account for progressive damage in collagen fibres within fibrous so...
Load-bearing soft tissues are abundant throughout the human body, including such diverse examples as...
Computational modelling of biomedical applications has gained significant momentum in recent years, ...
University of Minnesota Ph.D. dissertation. June 2013. Major: Biomedical Engineering. Advisor: Profe...
The present experimental-modelling study provides a quantitative interpretation of mechanical data a...
A new material model is proposed for the description of stress-softening observed in cyclic tension ...
Material properties of soft tissues are highly conditioned by the hierarchical structure of this kin...
Numerical models have become one of the most powerful tools in biomechanics and mechanobiology allow...
Healing in soft biological tissues is a chain of events on different time and length scales. This wo...
Remodelling of soft biological tissue is characterized by interacting biochemical and biomechanical ...
Damage in soft biological tissues causes an inflammatory reaction that initiates a chain of events t...
The final publication is available at Springer via http://dx.doi.org/10.1007/s11831-014-9142-8Comput...
Mechanics of soft collagenous tissues is highly influenced by its structured histological macroscopi...
Living biological tissues are complex structures that have the capacity of evolving in response to e...
We propose a mechanical model to account for progressive damage in collagen fibres within fibrous so...
Load-bearing soft tissues are abundant throughout the human body, including such diverse examples as...
Computational modelling of biomedical applications has gained significant momentum in recent years, ...
University of Minnesota Ph.D. dissertation. June 2013. Major: Biomedical Engineering. Advisor: Profe...
The present experimental-modelling study provides a quantitative interpretation of mechanical data a...
A new material model is proposed for the description of stress-softening observed in cyclic tension ...
Material properties of soft tissues are highly conditioned by the hierarchical structure of this kin...
Numerical models have become one of the most powerful tools in biomechanics and mechanobiology allow...