Keyphrases
Extracellular Matrix
83%
Vascularization
65%
Fibrous Matrix
54%
Tissue Engineering
48%
Fibrin
47%
Fibroblast Cells
47%
Fiber Alignment
43%
Cardiac muscle
41%
Vascularized
41%
Fibrin Gel
40%
Biological Cells
38%
Force Transmission
37%
3D Hydrogels
36%
Tissue Constructs
35%
Fibrous Gels
35%
Mechanical Communication
35%
Neighboring Cells
33%
Endothelial Cells
33%
Mechanical Interaction
32%
Engineered Tissue
32%
Cardiomyocytes
32%
Microbuckling
31%
Tri-culture
31%
Fibrous Network
28%
Tissue-engineered Constructs
28%
Live-cell Microscopy
27%
Cellular Mechanotransduction
27%
Microscopic Imaging
27%
Coral
27%
Collagen Fibers
27%
Cell-cell Communication
27%
Biomimetic
27%
Collagen
27%
Aligned Fibers
26%
Extracellular Fibers
26%
Embryonic Fibroblasts
25%
Band Formation
25%
Nonlinear Elasticity
25%
Mechanical Signals
25%
Three-dimensional (3D)
24%
Fibrin Hydrogel
23%
External Force
23%
Contractile Force
21%
Cell Growth
21%
Induced Displacement
20%
Cell-to-cell
20%
Silicone
19%
Mechanical Force
18%
Three-dimensional Environment
18%
Transplantation
18%
Engineering
Hydrogel
100%
Neighboring Cell
53%
Fibrous Matrix
49%
Force Transmission
43%
Tissue Engineering
39%
Range Cell
38%
Fiber Alignment
37%
Mechanical Interaction
37%
Aligned Fiber
34%
Buckling
31%
Biomimetics
28%
Microscale
26%
Dimensional Environment
20%
Biocomposite
20%
Anisotropic
20%
Confocal Microscopy
20%
Individual Fiber
19%
Transmissions
19%
Engineering
18%
Two Dimensional
18%
Contractile Force
17%
Mechanical Signal
17%
Finite Element Simulation
17%
Mechanical Load
17%
Linear Elasticity
15%
Biochemicals
13%
Review Paper
13%
Pressure Drop
13%
Applied Shear Stress
13%
Layer Thickness
13%
Densification
13%
Diameter Vascular Graft
13%
Experimental Technique
13%
Microfabrication
13%
Research Group
13%
Release Profile
13%
Mechanical Force
13%
Synergistic Effect
13%
Biological Environment
13%
Cell Alignment
13%
Periodic Motion
13%
Bioreactor
13%
Support Cell
13%
Elastic Wave
13%
Strain Gradient
13%
Micromechanical Property
13%
Network Model
13%
Tensiles
13%
Dependent Strain
13%
Rheology
13%