Add to ORKGA bilayer surface model of human atria is presented. A rule-based bi-layer physiological fibre arrangement is defined on an imaged in-vivo atrial geometry. This fibre architecture includes the main structures of fibres in the right and left atria, including the main transmural heterogeneities and transseptal connexions. The precision of the corresponding bilayer mathematical model is assessed by comparing the case of two sheets of orthogonal fibres to a three dimensional slab of tissue. A comparison of bilayer and monolayer simulations of sinus propagation is finally proposed. This model allows inclusion of transmural heterogeneities while maintaining small computational costs associated with surface models. It then proposes a good trade-of...
Computational models of human atrial cells, tissues and atria have been developed. Cell models, for ...
[EN] Multiscale cardiac modelling has been increasingly used since it provides a promising framework...
Atrial fibrillation is the most common type of cardiac arrhythmia. It is characterized by multiple w...
A bilayer surface model of human atria is presented. A rule-based bi-layer physiological fibre arran...
International audienceA bilayer surface model of human atria is presented. A rule-based bi-layer phy...
(1) Aims: Atrial numerical modelling has generally represented the organ as either a surface or tiss...
Fibre structure and anisotropy is a determinant issue to provide accurate simulations of the electri...
Fibre structure and anisotropy is a determinant issue to provide accurate simulations of the electri...
International audienceThe objective of this paper is to assess a previously-proposed surface-based e...
This dataset is part of the publication "A bi-atrial statistical shape model for large-scale in sili...
(A) Atrial tissue is described by a 3D slab of 40 × 40 × 3.6 mm3. (B) Model structure is comprised o...
Atrial anisotropy affects electrical propagation patterns, anchor locations of atrial reentrant driv...
International audienceNumerical simulations of the cardiac electrophysiology in the atria are often ...
Computational models of human atrial cells, tissues and atria have been developed. Cell models, for ...
[EN] Multiscale cardiac modelling has been increasingly used since it provides a promising framework...
Atrial fibrillation is the most common type of cardiac arrhythmia. It is characterized by multiple w...
A bilayer surface model of human atria is presented. A rule-based bi-layer physiological fibre arran...
International audienceA bilayer surface model of human atria is presented. A rule-based bi-layer phy...
(1) Aims: Atrial numerical modelling has generally represented the organ as either a surface or tiss...
Fibre structure and anisotropy is a determinant issue to provide accurate simulations of the electri...
Fibre structure and anisotropy is a determinant issue to provide accurate simulations of the electri...
International audienceThe objective of this paper is to assess a previously-proposed surface-based e...
This dataset is part of the publication "A bi-atrial statistical shape model for large-scale in sili...
(A) Atrial tissue is described by a 3D slab of 40 × 40 × 3.6 mm3. (B) Model structure is comprised o...
Atrial anisotropy affects electrical propagation patterns, anchor locations of atrial reentrant driv...
International audienceNumerical simulations of the cardiac electrophysiology in the atria are often ...
Computational models of human atrial cells, tissues and atria have been developed. Cell models, for ...
[EN] Multiscale cardiac modelling has been increasingly used since it provides a promising framework...
Atrial fibrillation is the most common type of cardiac arrhythmia. It is characterized by multiple w...