Engineering & Materials Science
Blood
100%
Shear stress
89%
Physics
62%
Hemodynamics
51%
Computational fluid dynamics
47%
Neural networks
32%
Mass transfer
28%
Topology
23%
Flow of fluids
22%
Fluid mechanics
21%
Machine learning
21%
Wall flow
18%
Platelets
18%
Boundary layers
18%
Vortex flow
15%
Lipoproteins
15%
Bioengineering
14%
Chemical activation
14%
Systems Biology
14%
Magnetic resonance imaging
13%
Kalman filters
13%
Biomechanics
13%
Flow patterns
12%
Rheology
12%
Fluids
12%
Decomposition
11%
Principal component analysis
11%
Dimensionality reduction
11%
Imaging techniques
11%
Risk assessment
10%
Screening
10%
Finite element method
9%
Boundary conditions
9%
Ultrasonics
9%
Stabilization
9%
Data structures
8%
Fluxes
8%
Personalized medicine
7%
Magnetic resonance
7%
Deep learning
7%
Flow rate
7%
Geometry
7%
Macrophages
7%
Pressure drop
7%
Uncertainty
7%
Shear thinning
7%
Inverse problems
6%
Intercellular Signaling Peptides and Proteins
6%
Calcium
6%
Tracers
6%
Medicine & Life Sciences
Hydrodynamics
74%
Abdominal Aortic Aneurysm
44%
Hemodynamics
30%
Aneurysm
27%
Aortic Diseases
26%
Thrombosis
21%
Aortic Valve
21%
Arteries
21%
Rheology
20%
Coronary Vessels
17%
Physics
16%
Mechanics
16%
Platelet Activation
14%
Bioengineering
14%
Particle Size
13%
Noise
12%
Lung
11%
Cardiovascular Diseases
11%
Atherosclerosis
11%
Embolism
10%
Congresses
10%
Inhalation
10%
Exercise
9%
Datasets
9%
Growth
9%
Patient-Specific Modeling
9%
Coronary Artery Disease
8%
Uncertainty
8%
Blood Vessels
8%
Pressure
8%
Aerosols
7%
Principal Component Analysis
7%
Magnetic Resonance Spectroscopy
7%
Intracranial Aneurysm
6%
Disease Progression
6%
Nebulizers and Vaporizers
6%
Heart Valves
6%
Cardiovascular System
5%
Biological Phenomena
5%
Patient Simulation
5%
Respiratory System
5%
Practice Guidelines
5%
Mathematics
Aneurysm
58%
Wall Shear Stress
40%
Neural Networks
30%
Blood Flow
27%
Physics
26%
Machine Learning
19%
Modeling
18%
Coronary Artery
18%
Data-driven
16%
Finite Element Modeling
16%
Topology
15%
Mass Transport
14%
Rupture
14%
Risk Assessment
14%
Sparse Data
14%
Computational Fluid Dynamics
14%
Dimensionality Reduction
13%
Hemodynamics
12%
Boundary Layer
12%
Unsteady Flow
12%
Fluid Flow
12%
Singular Perturbation
11%
Exercise
11%
Monitoring
11%
Ensemble
10%
Framework
9%
Model
9%
Quantify
9%
Prediction
8%
Blood
8%
Tetrahedral Mesh
7%
Stabilization
7%
Cardiovascular Disease
7%
Heterogeneous Systems
6%
Residence Time
6%
Coherent Structures
6%
Learning
6%
Ultrasound
6%
Vessel
5%
Inverse Problem
5%
Characterization
5%
Reduction Method
5%
Mesh
5%
