Computation of Lagrangian coherent structures improves insight into the transport mechanics of flow downstream of the aortic valve to aid clinical decision making and understanding of pathophysiology.
Computation of Lagrangian coherent structures can improve insight into transport mechanics of aortic valve flow, potentially aiding clinical decision making.
Important progress has been achieved in recent years in simulating the fluid-structure interaction around cardiac valves. An important step in making these computational tools useful to clinical practice is the development of postprocessing techniques to extract clinically relevant information from these simulations. This work focuses on flow through the aortic valve and illustrates how the computation of Lagrangian coherent structures can be used to improve insight into the transport mechanics of the flow downstream of the valve, toward the goal of aiding clinical decision making and the understanding of pathophysiology.
Shadden et al. (Tue,) conducted a other in Aortic valve flow. Computation of Lagrangian coherent structures was evaluated on Transport mechanics of the flow downstream of the valve. Computation of Lagrangian coherent structures improves insight into the transport mechanics of flow downstream of the aortic valve to aid clinical decision making and understanding of pathophysiology.
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