Keyphrases
Bioengineering
100%
Organoids
100%
Cell-derived
100%
ERK2
100%
STAT3 Signaling
100%
Diabetic Wound
100%
Skin Regeneration
100%
Keratinocyte-like Cells
100%
CXCR2
75%
Keratinocytes
50%
Transdifferentiation
50%
CXCL2
50%
Type I Diabetes
25%
Type 1 Diabetes Mellitus (T1DM)
25%
Transgenic
25%
Therapeutic Role
25%
Cell Therapy
25%
Transplantation
25%
Cell Fate
25%
Murine Model
25%
Wound Healing
25%
Engraftment
25%
Therapeutic Potential
25%
Wound Closure
25%
Type 2 Diabetic
25%
Aged Mice
25%
Streptozotocin-induced
25%
Re-epithelialization
25%
Regeneration Potential
25%
Chemokine Receptor
25%
Differentiation Potential
25%
Splint
25%
Endothelialization
25%
Axis Induction
25%
Avascular
25%
Epidermal Layer
25%
Excisional
25%
Diabetic Foot Ulcer
25%
Dermal Layer
25%
Mesenchymal Stem Cell Transplantation
25%
Allogeneic Mesenchymal Stem Cells
25%
3D Organoids
25%
Non-healing Wounds
25%
Chronic Diabetic Wound
25%
Wound Microenvironment
25%
3D Spheroid Cell Culture
25%
3D Skin Organoid
25%
Skin Tissue Regeneration
25%
Mitogenic Potential
25%
Medicine and Dentistry
Regeneration
100%
Organoid
100%
Mitogen Activated Protein Kinase 3
100%
Diabetic Wound
100%
Keratinocyte
100%
Wound Healing
33%
Cell Transdifferentiation
33%
Interleukin 8 Receptor, Beta
33%
Insulin Dependent Diabetes Mellitus
16%
Wound
16%
Engraftment
16%
Cell Therapy
16%
Receptor
16%
Mesenchymal Stem Cell Transplantation
16%
Chemokine Receptor
16%
Wound Closure
16%
Promoter Region
16%
Upregulation
16%
Streptozocin
16%
Epithelization
16%
Tissue Regeneration
16%
Splinting
16%
Diabetic Foot Ulcer
16%
Spheroid Cell
16%
Cell Culture
16%
Cell Fate
16%
Immunology and Microbiology
Keratinocyte
100%
STAT3
100%
Organoid
100%
Wound Healing
33%
CXCL2
33%
Cell Transdifferentiation
33%
Engraftment
16%
Foot
16%
Cell Culture
16%
Cell Fate
16%
Transgenics
16%
Promoter Region
16%
Upregulation
16%
Tissue Regeneration
16%
Epithelization
16%
Spheroid Cell
16%
Mesenchymal Stem Cell Transplantation
16%
Chemokine Receptor
16%