We present an integrated model of mitral valve coupled with the left ventricle. The model is derived from clinical images and takes into account of the important valvular features, left ventricle contraction, nonlinear soft tissue mechanics, fluid structure interaction, and the MV-LV interaction. This model is compared with a corresponding mitral-tube model, and differences in the results are discussed. Although the model is a step closer towards simulating physiological realistic situation, further work is required to ensure that the highly complex valvular-ventricular interaction, and the fluid-structure interaction, can be reliably represented
An Immersed Boundary fluid–structure interaction model is developed to investigate the dynamic behav...
The human mitral valve (MV) consists of a large anterior-medial leaflet and a smaller posterior late...
Recent advancements in cardiac computational modelling allow for ready simulation of bileaflet mitra...
We present an integrated model of mitral valve coupled with the left ventricle. The model is derived...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
The mitral valve (MV) is one of the four cardiac valves. It consists of two leaflets that are connec...
Dysfunction of mitral valve causes morbidity and premature mortality and remains a leading medical p...
4noThe Mitral valve of the human heart has a great relevance for numerous cardiac pathologies; howev...
Mitral valve (MV), together with left atrium (LA) form an important coupled structure inside human h...
5The fluid dynamics inside the left ventricle of the human heart is considered a potential indicator...
We develop a fluid-structure interaction (FSI) model of the mitral valve (MV) that uses an anatomica...
Background: Understanding the interaction between the mitral valve (MV) and the left ventricle (LV) ...
A simulated human mitral valve under a physiological pressure loading is developed using a hybrid fi...
A computational human mitral valve (MV) model under physiological pressure loading is developed usin...
An Immersed Boundary fluid–structure interaction model is developed to investigate the dynamic behav...
The human mitral valve (MV) consists of a large anterior-medial leaflet and a smaller posterior late...
Recent advancements in cardiac computational modelling allow for ready simulation of bileaflet mitra...
We present an integrated model of mitral valve coupled with the left ventricle. The model is derived...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
The mitral valve (MV) is one of the four cardiac valves. It consists of two leaflets that are connec...
Dysfunction of mitral valve causes morbidity and premature mortality and remains a leading medical p...
4noThe Mitral valve of the human heart has a great relevance for numerous cardiac pathologies; howev...
Mitral valve (MV), together with left atrium (LA) form an important coupled structure inside human h...
5The fluid dynamics inside the left ventricle of the human heart is considered a potential indicator...
We develop a fluid-structure interaction (FSI) model of the mitral valve (MV) that uses an anatomica...
Background: Understanding the interaction between the mitral valve (MV) and the left ventricle (LV) ...
A simulated human mitral valve under a physiological pressure loading is developed using a hybrid fi...
A computational human mitral valve (MV) model under physiological pressure loading is developed usin...
An Immersed Boundary fluid–structure interaction model is developed to investigate the dynamic behav...
The human mitral valve (MV) consists of a large anterior-medial leaflet and a smaller posterior late...
Recent advancements in cardiac computational modelling allow for ready simulation of bileaflet mitra...