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Flow in prosthetic heart valves: State-of-the-art and future directions
Ajit P. Yoganathan
, K. B. Chandran
,
Fotis Sotiropoulos
The Pennsylvania State University
College of Engineering
Research output
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Contribution to journal
›
Article
›
peer-review
169
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Scopus citations
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Dive into the research topics of 'Flow in prosthetic heart valves: State-of-the-art and future directions'. Together they form a unique fingerprint.
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Keyphrases
Heart Valve Prosthesis
100%
Computational Fluid Dynamics
60%
Mechanical Valve
60%
Thrombus
40%
Structural Failure
40%
Forward Flow
40%
High-resolution
20%
Temporal Resolution
20%
Full Potential
20%
Spatial Resolution
20%
Computational Fluid Dynamics Modeling
20%
Stress Concentration
20%
Flow Measuring
20%
Motion Scaling
20%
Measuring Techniques
20%
Medical Practitioners
20%
Numerical Techniques
20%
Formed Elements
20%
Prosthetic Devices
20%
Comprehensive Validation
20%
Average Lifetime
20%
Flow Stress
20%
Early Generation
20%
Bioprosthetic
20%
Tissue Valve
20%
Hemodynamic Flow
20%
Effective Orifice Area
20%
Tilting Disc Valve
20%
Anticoagulant Therapy
20%
Complex Motion
20%
Bileaflet
20%
Valve Implantation
20%
Mechanical Valve Prosthesis
20%
Blood Thinners
20%
Flow Stasis
20%
Over 50
20%
Geometric Complexity
20%
Measurement Tool
20%
Engineering
Implant
100%
Artificial Heart
100%
Computational Fluid Dynamics
75%
Mechanical Valve
75%
Structural Failure
50%
High Resolution
25%
Spatial Resolution
25%
Pressure Drop
25%
Induced Stress
25%
Computational Fluid Dynamic Modeling
25%
Stress Concentration
25%
Prosthetics
25%
Measuring Technique
25%
Numerical Technique
25%
Measuring Tool
25%
Temporal Resolution
25%
Prosthesis
25%
Exist Today
25%
Medicine and Dentistry
Implant
100%
Heart Valve Prosthesis
100%
Computational Fluid Dynamics
100%
Hemodynamic
50%
Thrombus
50%
Heart Valve Bioprosthesis
50%
In Vitro
25%
Lifespan
25%
Anticoagulant Therapy
25%
Stress Concentration
25%
Prosthetics
25%
Valve Prosthesis
25%
Dynamic Modeling
25%
Hemodynamic Stress
25%
Nursing and Health Professions
Implant
100%
Heart Valve Prosthesis
100%
Hemodynamic
75%
Thrombus
50%
Rehabilitation Engineering
25%
Anticoagulant Therapy
25%
Prosthesis
25%
Economic and Social Development
25%
Material Science
Computational Fluid Dynamics
100%
Heart Valve Prostheses
100%
Prosthetics
50%
Stress Concentration
25%
Physics
Computational Fluid Dynamics
100%
medical rehabilitation
100%
High Resolution
25%
Stress Concentration
25%