Keyphrases
Biomaterials
100%
Myocardial Infarction
100%
Angiogenic
100%
Cardiac Repair
100%
Citrate
100%
Degradation Products
80%
MYDGF
60%
Therapeutic Effect
40%
Hydrogel Degradation
40%
Cell Function
20%
Regenerative Medicine
20%
Tissue Regeneration
20%
Controlled Release
20%
Growth Factors
20%
Sustained Release
20%
Biological Systems
20%
Polyester
20%
Post-myocardial Infarction
20%
Host Cell
20%
Minimally Invasive
20%
Rational Design
20%
Wall Thickness
20%
Interaction Games
20%
Neovascularization
20%
Injectable Hydrogel
20%
Heart Repair
20%
Bioactive
20%
Delivery Rate
20%
Infarct Size
20%
Tissue Interaction
20%
Heart Function
20%
Scar Formation
20%
Combinatorial Approach
20%
Human Biomaterials
20%
Intramyocardial Injection
20%
Implanted Biomaterials
20%
Product Release
20%
Cell Cycle Regulators
20%
Pharmacology, Toxicology and Pharmaceutical Science
Biomaterial
100%
Heart Infarction
100%
Therapeutic Effect
33%
Infarction
33%
Controlled Release
16%
Growth Factor
16%
Sustained Release
16%
Implant
16%
Neovascularization (Pathology)
16%
Scar Formation
16%
Material Science
Biomaterial
100%
Hydrogel
100%
Polyester
16%