Keyphrases
Fibrin Microthreads
100%
Volumetric muscle Loss
92%
Microthreads
83%
Skeletal muscle Regeneration
67%
Hepatocyte Growth Factor
57%
Structural Properties
49%
Skeletal muscle
48%
Bioresorbable Scaffold
42%
Cell Recruitment
38%
Human Umbilical Vein Endothelial Cells (HUVECs)
38%
Regeneration
37%
Myoblast
36%
Skeletal muscle Tissue
35%
Axonal Growth
32%
Mechanical Properties
31%
Scaffold Materials
30%
Myofiber
29%
Tissue Engineering
29%
Injury Model
28%
Muscle Regeneration
28%
Skeletal muscle Tissue Engineering
24%
Skeletal muscle Injury
24%
In Vitro Model
24%
Wound Healing
24%
Peripheral Nerve
22%
Biomimetic Scaffold
20%
Brain-derived Neurotrophic Factor
20%
Neural Tissue
19%
Muscle Tissue
19%
Neurogenesis
19%
Collagen Sponge
19%
Tissue Model
19%
Tunable Pore Size
19%
Aligned Collagen
19%
Porous Biomaterials
19%
Neurotropism
19%
Human Endothelial Cells
19%
Oxygen Diffusivity
19%
Ionic Network
19%
Electronic Interface
19%
3D Tissue
19%
Nervous Tissue
19%
Rapid Release
19%
Biaxial Stretching
19%
Vascularization
19%
Extracellular Matrix Protein 1 (ECM1)
19%
Self-assembling Peptide Hydrogel
19%
Angiogenic
19%
Two-component
19%
Cellular Response
19%
Engineering
Tissue Engineering
99%
Myoblast
64%
Ultimate Tensile Strength
48%
Skeletal Muscle Tissue
38%
Hydrogel
38%
Biochemicals
38%
Myofibers
35%
Structural Property
28%
Biomimetics
28%
Biomaterial Scaffold
28%
Biochemical Cue
25%
Healing Process
19%
Skeletal Muscle Tissue Engineering
19%
Outgrowth
19%
Electronic Interface
19%
Morphologic
19%
Histogram
19%
Alkylation
19%
Biopolymer
19%
Swelling Ratio
19%
Output Force
19%
Cellular Response
19%
Energy Engineering
19%
Diffusivity
19%
Terminal Sterilization
19%
Biomechanics
19%
Biological System
19%
Limitations
12%
Living System
12%
Implant
12%
Term Scaffold
9%
Directional
9%
Young's Modulus
9%
Control Group
9%
Internals
9%
Earliest Time
9%
Functional Muscle Tissue
9%
Original Length
9%
Processing Condition
9%
Micrograph
9%
Cell Alignment
9%
Degradation Time
9%
Longitudinal Axis
9%
Oxygen Transfer
9%
Strain Hardening
9%
Poisson Ratio
9%
Direct Cell
9%
Multiple Approach
6%
Designed Material
6%
Tensegrity
6%