Show
Sort by
-
- Journal Article
- A1
- open access
Unstructured hexahedral mesh generation of complex vascular trees using a multi-block grid-based approach
-
- Journal Article
- A1
- open access
Differential impact of local stiffening and narrowing on hemodynamics in repaired aortic coarctation: an FSI study
-
- Conference Paper
- C3
- open access
Fluid-structure interaction models of aortic coarctation and repair : lessons to be learned for hemodynamic analysis
-
Branch-related ruptures in tunica media prior to AAA formation in angiotensin II-infused apoe-/-mice: synchrotron imaging vs FSI modelling
-
- Journal Article
- A1
- open access
An animal-specific FSI model of the abdominal aorta in anesthetized mice
-
The aortic reservoir-wave as a paradigm for arterial haemodynamics: insights from three-dimensional fluid-structure interaction simulations in a model of aortic coarctation
-
- PhD Thesis
- open access
Numerical modelling of the fluid-structure interaction in complex vascular geometries
(2014) -
Automated hexahedral mesh generation in a complex vascular tree: the extended Treemesh method
-
- Conference Paper
- C3
- open access
Insights into the effect of local stiffness and residual narrowing on central hemodynamics seen in repaired aortic coarctation: a computational study
-
Impact of the severity and stiffness of repaired coarctation on central aortic hemodynamics and its clinical assessment: a fluid-structure interaction study
-
Longitudinal follow-up of ascending versus abdominal aortic aneurysm formation in angiotensin II-infused ApoE -/- mice
-
Improved method to auto-generate high-quality hexahedral meshes of complex vascular trees
-
- Conference Paper
- C3
- open access
Evaluating the hemodynamic impact of isolated non-distensibility and residual narrowing after coarctation repair using a computational study
-
Comparison between two different decompositions for the solution of fluid-structure interaction problems
-
- Journal Article
- A1
- open access
Inverse modelling of image-based patient-specific blood vessels : zero-pressure geometry and in vivo stress incorporation
-
Variability of computational fluid dynamics solutions for pressure and flow in a giant aneurysm: the ASME 2012 summer bioengineering conference CFD challenge
-
- Journal Article
- A1
- open access
A computational method to assess the in vivo stresses and unloaded configuration of patient-specific blood vessels
-
CFD challenge: solutions using the commercial finite volume solver, fluent, and a pyFormex-generated full hexahedral mesh
-
Predicting the functional impact of residual aortic coarctation lesions using fluid-structure interaction simulations
-
Analysis of the clinical performance of an aortic BMHV by numerical simulation