Keyphrases
Blood Flow
66%
Wall Shear Stress
61%
Aortic Valve Calcification
50%
Patient-specific
44%
Hemodynamic Analysis
33%
Multi-Grade
33%
Hemodynamic Assessment
33%
Aortic Valve Dynamics
33%
In Silico
33%
AAOCA
33%
Orifice Area
27%
Cardiovascular Disease
27%
Hemodynamic Changes
25%
Stress-driven
19%
Index Structure
16%
Immersed Boundary
16%
Vortex Structure
16%
Complex Vortex
16%
Endothelial Damage
16%
Transport Efficiency
16%
Flow Function
16%
Treatment Strategy
16%
Stress Index
16%
Valve Function
16%
Leaflet Motion
16%
Aortic Valve Leaflets
16%
Fluid Transport
16%
Disease Progression
16%
Flow Efficiency
16%
Structural Damage
16%
Valve Performance
16%
Aortic Valve Disease
16%
Left Ventricular Function
16%
Diagnostic Strategy
16%
Blood Flow Patterns
16%
Left Ventricular Outflow Tract
16%
Ascending Aorta
16%
Vortex Formation
16%
Ostia
16%
Left Main Coronary Artery
16%
Vortical Structures
16%
Finite Element Simulation
16%
Take-off
16%
Heart Valve Prosthesis
11%
Aortic Valve Stenosis
11%
Flow around
11%
Calcification Patterns
11%
Severe Cases
11%
Advanced Design
11%
Hemodynamic Parameters
11%
Engineering
Wall Shear Stress
66%
Orifice
50%
Leaflet Valve
50%
Vortex
33%
Main Reason
33%
Computer Simulation
33%
Rigidity
33%
Flow Parameters
33%
Prosthetics
33%
Patient Specific
33%
Critical Flow
33%
Hemodynamic Parameter
33%
Progression
33%
Induced Change
16%
Flow Distribution
16%
Flow Efficiency
16%
Finite Element Analysis
16%
Fluid System
16%
Structural Damage
16%
Medicine and Dentistry
Hemodynamic
100%
Aortic Valve
66%
Blood Flow
58%
In Silico
33%
Coronary Artery
33%
Disease
33%
Cardiovascular Disease
19%
Left Coronary Artery
13%
Aortic Valve Stenosis
11%
Heart Valve Prosthesis
11%
Stenosis
11%
Heart Valve
11%
Calcification
11%
Diagnosis
8%
Ascending Aorta
8%
Ventricular Outflow Tract
8%
Aortic Valve Disease
8%
Fluid Transport
8%
Disease Exacerbation
8%
Finite Element Analysis
8%
Computer Assisted Tomography
6%
Coronary Artery Disease
6%
Disease Management
6%
Angiography
6%
Fractional Flow Reserve
6%
Clinical Management
6%
Ischemia
6%