Biological growth is often driven by mechanical cues, such as changes in external pressure or tensile loading. Moreover, it is well known that many living tissues actively maintain a preferred level of mechanical internal stress, called the mechanical homeostasis. The tissue-level feedback mechanism by which changes of the local mechanical stresses affect growth is called a growth law within the theory of morphoelasticity, a theory for understanding the coupling between mechanics and geometry in growing and evolving biological materials. This coupling between growth and mechanics occurs naturally in macroscopic tubular structures, which are common in biology (e.g. arteries, plant stems, airways). We study a continuous tubular system with sp...
Some of the key factors that regulate growth and remodeling of tissues are fundamentally mechanical....
As elastic tissues grow and remodel, they generate stresses that influence their mechanical states w...
The multiplicative decomposition model is widely employed for predicting residual stresses and morph...
Biological growth is often driven by mechanical cues, such as changes in external pressure or tensil...
Many living biological tissues are known to grow in response to their mechanical environment, such a...
We present a mechanical model of tissue homeostasis that is specialised to the intestinal crypt. Gro...
The mechanical analysis of soft tissues in biomechanics has undergone an increasing progress during ...
Many soft tissues, and arteries in primis, exhibit residual stress after unloading, a characteristic...
The morphogenesis of organs necessarily involves mechanical interactions and changes in mechanical p...
<div><p>The morphogenesis of organs necessarily involves mechanical interactions and changes in mech...
Morphogenesis in plants and animals involves large irreversible deformations. In plants, the respons...
This chapter is concerned with the modelling of growth processes in the framework of continuum mecha...
We study theoretically the morphologies of biological tubes affected by various pathologies. When ep...
The regulation of cell growth in animal tissues is a question of critical importance: most tissues c...
The multiplicative decomposition model is widely employed for predicting residual stresses and morph...
Some of the key factors that regulate growth and remodeling of tissues are fundamentally mechanical....
As elastic tissues grow and remodel, they generate stresses that influence their mechanical states w...
The multiplicative decomposition model is widely employed for predicting residual stresses and morph...
Biological growth is often driven by mechanical cues, such as changes in external pressure or tensil...
Many living biological tissues are known to grow in response to their mechanical environment, such a...
We present a mechanical model of tissue homeostasis that is specialised to the intestinal crypt. Gro...
The mechanical analysis of soft tissues in biomechanics has undergone an increasing progress during ...
Many soft tissues, and arteries in primis, exhibit residual stress after unloading, a characteristic...
The morphogenesis of organs necessarily involves mechanical interactions and changes in mechanical p...
<div><p>The morphogenesis of organs necessarily involves mechanical interactions and changes in mech...
Morphogenesis in plants and animals involves large irreversible deformations. In plants, the respons...
This chapter is concerned with the modelling of growth processes in the framework of continuum mecha...
We study theoretically the morphologies of biological tubes affected by various pathologies. When ep...
The regulation of cell growth in animal tissues is a question of critical importance: most tissues c...
The multiplicative decomposition model is widely employed for predicting residual stresses and morph...
Some of the key factors that regulate growth and remodeling of tissues are fundamentally mechanical....
As elastic tissues grow and remodel, they generate stresses that influence their mechanical states w...
The multiplicative decomposition model is widely employed for predicting residual stresses and morph...