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Taylor, Charles A. - Department of Bioengineering, Stanford University
Dynamic Exercise Imaging With an MR-Compatible Stationary Cycle Within the General Electric Open
Inferior vena caval hemodynamics quantified in vivo at rest and during cycling exercise using magnetic resonance imaging
In Vivo Quantification of Blood Flow and Wall Shear Stress in the Human Abdominal Aorta During Lower Limb Exercise
Finite Element Modeling of Three-Dimensional Pulsatile Flow in the Abdominal Aorta: Relevance to Atherosclerosis
LEVEL SET METHODS FOR COMPUTATIONAL PROTOTYPING
A ONE-DIMENSIONAL FINITE ELEMENT METHOD FOR SIMULATION-BASED MEDICAL PLANNING FOR CARDIOVASCULAR DISEASE
Quantification of Vessel Wall Cyclic Strain Using Cine Phase Contrast Magnetic Resonance Imaging
BASIC RESEARCH PAPERS Exercise has numerous overall health benefits.
Comparison of abdominal aortic hemodynamics between men and women at rest and during lower
Quantification of Wall Shear Stress in Large Blood Vessels Using Lagrangian Interpolation Functions with Cine
In Vivo Validation of Numerical Prediction of Blood Flow in Arterial Bypass Grafts
Biomedical Paper Predictive Medicine: Computational Techniques
Proceedingsof The FirstJointBMES/EMBSConferenc8Sarving Humanity, Advancing Technology Oct.13-16, '99, Atlanta,GA, USA AN IN VIVO METHOD FOR MEASURING VESSEL WALL MOTION AND
