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Bioengineering skin using mechanisms of regeneration and repair
Anthony Metcalfe, Mark Ferguson
University of Brighton
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peer-review
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Keyphrases
Skin Substitute
100%
Regeneration
100%
Wound Repair
100%
Bioengineering
100%
Wound Regeneration
100%
Cell Adhesion
50%
Clinical Application
50%
Structural Properties
50%
Commercially Viable
50%
Vascularization
50%
Cell Growth
50%
Direct Results
50%
Scar
50%
Repair Method
50%
Chronic Wounds
50%
Cell Differentiation
50%
Skin Repair
50%
Tissue-engineered Constructs
50%
Acute Wound
50%
Replacement Therapy
50%
Functional Properties
50%
Clinical Development
50%
Regeneration Mechanism
50%
Differentiated Structure
50%
Skin Tissue
50%
Full-thickness Skin Grafting
50%
Tissue Development
50%
Clinical Milestones
50%
Skin Bioengineering
50%
Adhesion Growth
50%
Synthetic Biomaterials
50%
Engineering
Bioengineering
100%
Grafts
100%
Skin Substitute
100%
Biomechanics
50%
Structural Property
50%
Skin Tissue
50%
Functional Property
50%
Medicine and Dentistry
Wound Healing
100%
Injury
25%
Biocompatible Material
25%
Cell Adhesion
25%
Vascularity
25%
Cell Growth
25%
Conception
25%
Chronic Wound
25%
Skin Transplantation
25%
Substitution Therapy
25%
Cell Differentiation
25%
Skin Graft
25%
Scar Formation
25%
Immunology and Microbiology
Wound Healing
100%
Cell Adhesion
25%
Vascularization
25%
Cell Growth
25%
Cell Differentiation
25%
Scar Formation
25%
Conception
25%
Biomechanics
25%