You may also like
Evaluation of Recirculation During Venovenous Extracorporeal Membrane Oxygenation Using Computational Fluid Dynamics Incorporating Fluid-Structure Interaction
We have developed a finite element computational fluid dynamics model incorporating fluid-structure interaction (FSI) that incorporates atrial deformation during atrial filling and emptying, with fluid flow solved using large eddy simulation. With this model, we have evaluated an extensive number of factors that could influence recirculation during two-site VV ECMO, and characterized their impact on recirculation, including cannula construction, insertion depth and orientation, VV ECMO configuration, circuit blood flow, and changes in volume, venous return, heart rate, and blood viscosity.
1 min read
The Role of Microplegia in Reducing Post-Operative Low Cardiac Output Syndrome (EP Video)
Paul Murphy discusses the role of microplegia in reducing low cardiac output syndrome (25:33 minutes).
1 min read
Patient Blood Management: Implementing Effective Transfusion Reduction in the Hospital Setting (EP Video)
Bradford Ray discusses the implementation of patient blood management in a hospital setting (29:33 minutes).
1 min read