Skin Stem Cells in Iran

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[2]  Azadeh Meshkini,et al.  Tailoring the Proliferation of Fibroblast Cells by Multiresponsive and Thermosensitive Stem Cells Composite F127 Hydrogel Containing Folic acid.MgO:ZnO/chitosan Hybrid Microparticles for Skin Regeneration. , 2021, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[3]  F. Chehelcheraghi,et al.  Effect of Bone Marrow Mesenchymal Stem Cell Sheets on Skin Capillary Parameters in a diabetic wound model: A Novel Preliminary Study , 2021, Iranian biomedical journal.

[4]  Sona Zare,et al.  Biological Characteristics and Optical Reflectance Spectroscopy of Human Placenta Derived Mesenchymal Stem Cells for Application in Regenerative Medicine. , 2021, Journal of lasers in medical sciences.

[5]  L. Roshangar,et al.  Using 3D‐bioprinting scaffold loaded with adipose‐derived stem cells to burns wound healing , 2021, Journal of tissue engineering and regenerative medicine.

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[7]  Sona Zare,et al.  Transplantation of autologous fat, stromal vascular fraction (SVF) cell, and platelet‐rich plasma (PRP) for cell therapy of atrophic acne scars: Clinical evaluation and biometric assessment , 2020, Journal of cosmetic dermatology.

[8]  N. Tanideh,et al.  The effects of adipose tissue-derived stem cells seeded onto the curcumin-loaded collagen scaffold in healing of experimentally- induced oral mucosal ulcers in rat , 2020, Iranian journal of basic medical sciences.

[9]  S. K. Ghoreishi,et al.  Transplantation of photobiomodulation-preconditioned diabetic stem cells accelerates ischemic wound healing in diabetic rats , 2020, Stem cell research & therapy.

[10]  M. Mokhtari-Dizaji,et al.  Low-intensity ultrasound combined with allogenic adipose-derived mesenchymal stem cells (AdMSCs) in radiation-induced skin injury treatment , 2020, Scientific Reports.

[11]  A. Atashi,et al.  Elevated expression of stemness genes in adipose-derived mesenchymal stem cells cultured on fibrin scaffold , 2020, Journal of Biosciences.

[12]  N. Aghdami,et al.  Human Hair Outer Root Sheath Cells and Platelet-Lysis Exosomes Promote Hair Inductivity of Dermal Papilla Cell , 2020, Tissue Engineering and Regenerative Medicine.

[13]  S. Hashemi,et al.  The role of labeled cell therapy with and without scaffold in early excision burn wounds in a rat animal model , 2020, Iranian journal of basic medical sciences.

[14]  Saeed Farzamfar,et al.  Impact of exosome loaded chitosan hydrogel in wound repair and layered dermal reconstitution in mice animal model. , 2020, Journal of biomedical materials research. Part A.

[15]  E. Alizadeh,et al.  Cytoprotective effects of antioxidant supplementation on mesenchymal stem cell therapy , 2020, Journal of cellular physiology.

[16]  M. Soleimani,et al.  Wound healing improvement by curcumin‐loaded electrospun nanofibers and BFP‐MSCs as a bioactive dressing , 2020 .

[17]  S. Bayat,et al.  Combined therapy of photobiomodulation and adipose-derived stem cells synergistically improve healing in an ischemic, infected and delayed healing wound model in rats with type 1 diabetes mellitus , 2020, BMJ Open Diabetes Research & Care.

[18]  S. Hashemi,et al.  The effect of allogenic human Wharton's jelly stem cells seeded onto acellular dermal matrix in healing of rat burn wounds , 2020, Journal of cosmetic dermatology.

[19]  S. Shirian,et al.  CD93 hematopoietic stem cells improve diabetic wound healing by VEGF activation and downregulation of DAPK‐1 , 2020, Journal of cellular physiology.

[20]  L. Roshangar,et al.  Adipose tissue‐derived stem cells upon decellularized ovine small intestine submucosa for tissue regeneration: An optimization and comparison method , 2020, Journal of cellular physiology.

[21]  A. Seifalian,et al.  Engineered skin graft with stromal vascular fraction cells encapsulated in fibrin–collagen hydrogel: A clinical study for diabetic wound healing , 2019, Journal of tissue engineering and regenerative medicine.

[22]  H. Sadeghnia,et al.  Adipose tissue‐derived mesenchymal stem cells and keratinocytes co‐culture on gelatin/chitosan/β‐glycerol phosphate nanoscaffold in skin regeneration , 2019, Cell biology international.

[23]  A. Seifalian,et al.  Skin regenerative medicine advancements in the Islamic Republic of Iran: a concise review. , 2019, Regenerative medicine.

[24]  M. Nobakht,et al.  In vitro Differentiation of Hair Follicle Stem Cell into Keratinocyte by Simvastatin , 2019, Iranian biomedical journal.

[25]  S. K. Ghoreishi,et al.  Photobiomodulation with 630 plus 810 nm wavelengths induce more in vitro cell viability of human adipose stem cells than human bone marrow-derived stem cells. , 2019, Journal of photochemistry and photobiology. B, Biology.

[26]  N. Chauhan,et al.  Intravenous Administration of Granulocyte-Colony Stimulating Factor for Stem Cells Mobilization and Third Degree Burn Wound Healing in Rats , 2019, Journal of Applied Biotechnology Reports.

[27]  M. Matin,et al.  Use of cerium oxide nanoparticles: a good candidate to improve skin tissue engineering , 2019, Biomedical materials.

[28]  M. Shokrgozar,et al.  Preparation of Skin Tissue Engineering Scaffold Based on Adipose-Derived Tissue , 2019 .

[29]  M. Shokri,et al.  Promotion of excisional wound repair by a menstrual blood-derived stem cell-seeded decellularized human amniotic membrane , 2018, Biomedical Engineering Letters.

[30]  N. Aghdami,et al.  Hair Follicle Generation by Injections of Adult Human Follicular Epithelial and Dermal Papilla Cells into Nude Mice , 2017, Cell journal.

[31]  H. Baharvand,et al.  Therapeutic potential of human-induced pluripotent stem cell-derived endothelial cells in a bleomycin-induced scleroderma mouse model. , 2013, Stem cell research.