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Harnessing wound healing and regeneration for tissue engineering
Anthony Metcalfe, Mark Ferguson
University of Brighton
Research output
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peer-review
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Keyphrases
Wound Healing
100%
Tissue Engineering
100%
Scar
100%
Tissue-engineered Constructs
100%
Wound Regeneration
100%
Integration Level
50%
Novel Therapeutics
50%
Living Cells
50%
Antibiotics
50%
Biomedical Science
50%
Bandages
50%
Signaling Mechanism
50%
Growth Factors
50%
Shoes
50%
Diabetic Foot Ulcer
50%
Novel Genes
50%
Ulcer
50%
Regenerative Process
50%
Glucose Control
50%
Skin Tissue Engineering
50%
Tissue-engineered Skin Substitutes
50%
Support Matrix
50%
Mouse Genetics
50%
Regenerative Biology
50%
Engineered Tissue
50%
Human Skin Equivalents
50%
Experimental Animals
50%
Microanatomy
50%
Ear Injury
50%
Molecular Manipulation
50%
Therapeutic Manipulation
50%
Medicine and Dentistry
Wound Healing
100%
Tissue Regeneration
100%
Engineered Tissue
100%
Scar Formation
66%
Signaling Mechanism
33%
Antibiotics
33%
Diabetic Foot Ulcer
33%
Growth Factor
33%
Biomedical Discipline
33%
Ulcer
33%
Regeneration
33%
Ear Injury
33%
Immunology and Microbiology
Tissue Regeneration
100%
Engineered Tissue
100%
Wound Healing
100%
Scar Formation
66%
Foot
33%
Growth Factor
33%
Signaling Mechanism
33%
Mouse Mutant
33%
Regeneration
33%
Experimental Animal
33%