INIS
aorta
100%
walls
85%
modeling
61%
arteries
61%
tissues
56%
dynamics
42%
thickness
38%
strains
37%
mechanical properties
33%
matrices
32%
levels
32%
diseases
28%
nonlinear problems
28%
capture
28%
engineering
28%
reviews
28%
geometry
28%
humans
28%
patients
22%
deformation
22%
vessels
22%
homeostasis
21%
data
21%
muscles
19%
conferences
19%
interventions
19%
growth
18%
collagen
15%
risks
15%
guidelines
14%
surgery
13%
variations
13%
stiffness
13%
accuracy
11%
shear
9%
symposia
9%
repair
9%
modulation
9%
computerized tomography
9%
awards
9%
nmr imaging
9%
biology
9%
sinuses
9%
interactions
9%
management
9%
relaxation
8%
ruptures
8%
fibers
7%
loading
7%
applications
7%
Keyphrases
Ascending Thoracic Aortic Aneurysm
57%
Quasi-linear Viscoelasticity
57%
Viscoelastic Behavior
33%
Mechanical Properties
28%
Biaxial Strain
28%
Scoping Review
28%
Cell Matrix
28%
Modeling Framework
28%
Systems Approach
28%
Biomedical Engineering
28%
Quasi-linear Modeling
28%
Nonlinear Viscoelasticity
28%
Maastricht
28%
Operative Video
28%
Thoracic Ascending Aorta
28%
Prestress
28%
Wall Thickness
28%
Thoracic Aortic Disease
28%
Ascending Thoracic Aorta
28%
Biomechanical Characterization
28%
Image Measurement
28%
Biaxial Stretching
28%
Human Ascending Aorta
28%
Wall Stress
17%
Aortic Geometry
17%
Aorta
16%
Elastin
15%
Viscoelasticity
15%
Mechanical Homeostasis
14%
Aneurysm Formation
13%
Constitutive Model Parameters
12%
Mini
11%
Tissue Level
11%
Numerical Methods
11%
Tissue Properties
11%
Collagen
10%
Physiological Pressure
10%
Arterial Viscoelasticity
10%
Aortic Wall
10%
Growth Rate
10%
Loading Conditions
9%
Fully Nonlinear
9%
Aortic Diameter
9%
Collagen Fibers
9%
Tissue Remodeling
9%
Existing Knowledge
7%
Clinical Setting
7%
Derangement
7%
Smooth muscle Cells
7%
Surgical Intervention
7%