Keyphrases
Bioresorbable Scaffold
100%
Anterior Cruciate Ligament
100%
Optimization Study
100%
Poly(L-lactic acid)
100%
Ligament Regeneration
100%
Poly(lactic-co-glycolic acid)
57%
Cellular Response
42%
Polymer Composition
42%
Polyglycolic Acid
42%
Mechanical Properties
28%
Tissue-engineered Constructs
28%
Cell Attachment
28%
Pre-coating
28%
Braided Scaffold
28%
Polymer Scaffold
14%
Physiologically Relevant
14%
Fibronectin
14%
Cell Growth
14%
Cell Death
14%
In Vitro Study
14%
Knee
14%
Cell number
14%
Structural Integrity
14%
Intra-articular
14%
Material Selection
14%
Material Composition
14%
Surface Modification
14%
Degradation Properties
14%
Superior Mechanical Properties
14%
Ligament Healing
14%
Polymer Modification
14%
Selection Criteria
14%
Rapid Degradation
14%
Braiding Technology
14%
Three-dimensional Braiding
14%
Attachment Efficiency
14%
Matrix Production
14%
Degradation in Vitro
14%
Mechanical Degradation
14%
Cell Scaffold
14%
High Tensile Strength
14%
Engineered Solutions
14%
Ligament Tissue Engineering
14%
Scaffold Mechanical Properties
14%
Articular Ligaments
14%
Term Document Matrix
14%
Hydroxy Esters
14%
Engineering
Biodegradable Scaffold
100%
Phase Composition
100%
Cellular Response
75%
Grafts
50%
Limitations
25%
Structural Integrity
25%
Disruptions
25%
Material Composition
25%
Function of Time
25%
Ultimate Tensile Strength
25%
Selection Criterion
25%
Cell Number
25%
Ligament Tissue Engineering
25%
Fabricated Scaffold
25%
Material Science
Phase Composition
100%
Cell Death
20%
Material Selection
20%
Ultimate Tensile Strength
20%
Modification of Polymer Surface
20%