Profile Fingerprint is based on mining the text of the experts' scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

Engineering & Materials Science

Hemodynamics
Tissue
Collagen
Mechanics
Fluids
Geometry
Biomechanics
Mechanical properties
Shear stress
Degradation
Stem cells
Repair
Fibers
Stiffness
Elastin
Swelling
Parameter estimation
Anisotropy
Medical imaging
Gels
Blood
Boundary conditions
Fiber reinforced materials
Adhesives
Elastic moduli
Parameterization
Differential equations
Muscle
Blood vessels
Cardiovascular system
Tissue culture
Thermoelasticity
Denaturation
Pressurization
Granular materials
Rheometers
Biomimetics
Strain energy
Polyelectrolytes
Image segmentation
Tissue engineering
Elastomers
Scaffolds
Reaction kinetics
Magnetic resonance imaging
Wavelet transforms
Tensors
Multilayers
Chemical potential
Computational mechanics

Medicine & Life Sciences

Abdominal Aortic Aneurysm
Growth
Pressure
Aneurysm
Arteries
Collagen
Blood Vessels
Aorta
Basilar Artery
Anisotropy
Least-Squares Analysis
Mesenchymal Stromal Cells
Thrombosis
Hot Temperature
Hemodynamics
Hypertension
Noise
Homeostasis
Rupture
Oxygen
Temperature
Mechanics
Mechanical Stress
Pressure Ulcer
Economic Inflation
Intracranial Aneurysm
Abdominal Wall
Thoracic Aorta
Adhesives
Heating
Calibration
Uncertainty
Smooth Muscle
Longitudinal Studies
Spine
Theoretical Models
Swine
Perfusion
Weights and Measures
Skin
Elastic Modulus
Abdominal Aorta
Elastin

Mathematics

Modeling
Fiber
Hyperelastic Material
Aneurysm
Collagen
Stretch
Dissipation
Dependent
Cell
Biaxial
Gradient
Anisotropy
Degradation
Differential equation
Boundary conditions
Tissue Culture
Aorta
Transversely Isotropic
Stem Cells
Thermoelasticity
Strain Energy
Large Deformation
Microscopy
Vessel
Plastics
Fluid
Swelling
Kink
Mass flux
Mixture Theory