Rodney Hose

TL;DR: This review categorises 0D and 1D models of the cardiovascular system, highlights their advantages and disadvantages, and provides guidance on the selection of models to assist various cardiovascular modelling studies.

TL;DR: The validation method presented in this paper is an important tool to provide biomechanical gold standard deformations for registration error quantification, which may also form the basis to improve and compare different non-rigid registration techniques for a diversity of medical applications.

TL;DR: The study shows that assumptions made on the velocity profile while specifying inlet boundary conditions have little influence on the local haemodynamics in the aneurysm, provided that a sufficient extension of the afferent vasculature is considered and that geometry is the primary determinant of the flow field within theAneurismal sac.

TL;DR: This work considers the problem of estimating the stiffness of an artery wall using a data assimilation method applied to a 3D fluid-structure interaction (FSI) model, and presents two examples of the procedure using real data.

TL;DR: An in vitro model of blood clotting is presented using hypercoaguable milk as an analog for blood to produce features consistent with observations of thrombosis within cerebral aneurysms, while avoiding the unrealistic build up of clot in near-wall regions that is associated with a pure residence time model.