Keyphrases
Vertex Model
100%
Viscoelastic Response
66%
Normal Mode Analysis
66%
Linear Viscoelasticity
66%
Rheological Behavior
66%
Dissipation Mechanism
66%
Mechanical Force
66%
Driving Frequency
44%
Linear Response
44%
Active Force
44%
Epithelium
33%
Nematic Order
33%
Gastrulation
33%
Early Development
33%
New Frontiers
33%
Cellular Level
33%
Actomyosin Oscillation
33%
Tissue Mechanics
33%
Epithelial Tissue
33%
Multi-cell Cooperation
22%
Cell Shape
22%
Jeffrey Model
22%
Dissipative Forces
22%
Collective Excitations
22%
Elastic Stress
22%
Soft Matter Systems
22%
Solid Element
22%
Semi-analytical Method
22%
Linear Loss
22%
Normal Mode Decomposition
22%
Rheological Response
22%
Response Regimes
22%
Viscoelastic Element
22%
Model Elements
22%
Shear Rheology
22%
Standard Linear Solid
22%
Internal Dissipation
22%
Relaxation Timescale
22%
Soft Tissue
22%
Force Balance
22%
Elastic Deformation
22%
Loss Modulus
22%
Cell Substrate
22%
Storage Modulus
22%
Jeffreys
22%
Full Characterization
22%
Soft Materials
22%
Overdamped
22%
Cell-to-cell
22%
Total Response
22%
Cell Size
11%
Cell Tension
11%
Long-lived
11%
Chemical Patterning
11%
Cell-cell Junctions
11%
Out-of-equilibrium
11%
Cell Area
11%
Possible Mechanisms
11%
Homeostatic State
11%
Homeostatic Pressure
11%
Amniotes
9%
Growth Maintenance
8%
Dynamic Steady State
8%
Maintenance Function
8%
Spatiotemporal Characteristics
6%
Network Parameters
6%
Histoblasts
6%
Actomyosin Dynamics
6%
Engineering
Tissue Mechanics
77%
Normal Mode Analysis
66%
Internals
66%
Mechanical Force
66%
Monolayers
66%
Tissue Homeostasis
66%
Normal Modes
55%
Rheological Behavior
33%
Cell Area
33%
Cell Coordination
33%
Chemical Patterning
33%
Junction Cell
33%
Early Stage
33%
Living Organism
33%
Disruptions
33%
Neighbor Cell
33%
Linear Response
22%
Microenvironments
16%
Solid Element
11%
Force Balance
11%
Model Element
11%
Elastic Stress
11%
Loss Modulus
11%
Storage Modulus
11%
Soft Material
11%
Broader Class
11%
Elastic Deformation
11%
Rheology
11%