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Steven T Boyce

Showing results (41-50 of 60) with videos related to

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Experimental Dermatology|October 20, 2012
Morphogenesis of chimeric hair follicles in engineered skin substitutes with human keratinocytes and murine dermal papilla cellsPenkanok Sriwiriyanont, Kaari A Lynch, Elizabeth A Maier, et al.
The Journal of Investigative Dermatology|October 3, 2009
Engineered human skin substitutes undergo large-scale genomic reprogramming and normal skin-like maturation after transplantation to athymic miceJennifer M Klingenberg, Kevin L McFarland, Aaron J Friedman, et al.
Plos One|March 6, 2019
Identification of Merkel cells associated with neurons in engineered skin substitutes after grafting to full thickness woundsJennifer M Hahn, Kelly A Combs, Christopher M Lloyd, et al.
Pigment Cell & Melanoma Research|June 23, 2017
Restoration of cutaneous pigmentation by transplantation to mice of isogeneic human melanocytes in dermal-epidermal engineered skin substitutesSteven T Boyce, Christopher M Lloyd, Mark C Kleiner, et al.
The Journal of Investigative Dermatology|December 16, 2005
Microarray analysis of gene expression in cultured skin substitutes compared with native human skinAndrea K Smiley, Jennifer M Klingenberg, Bruce J Aronow, et al.
The Journal of Trauma|April 14, 2006
Cultured skin substitutes reduce requirements for harvesting of skin autograft for closure of excised, full-thickness burnsSteven T Boyce, Richard J Kagan, David G Greenhalgh, et al.
Journal of Burn Care & Research : Official Publication of the American Burn Association|February 14, 2020
Light or Dark Pigmentation of Engineered Skin Substitutes Containing Melanocytes Protects Against Ultraviolet Light-Induced DNA Damage In VivoDorothy M Supp, Jennifer M Hahn, Christopher M Lloyd, et al.
Plos One|September 28, 2017
Analysis of chromatin accessibility in human epidermis identifies putative barrier dysfunction-sensing enhancersJulie M Lander, Dorothy M Supp, Hua He, et al.
Wound Repair and Regeneration : Official Publication of the Wound Healing Society [And] the European Tissue Repair Society|June 8, 2012
Assessment of replication rates of human keratinocytes in engineered skin substitutes grafted to athymic miceSteven T Boyce, Rachel K Rice, Kaari A Lynch, et al.
Annals of Surgery|January 25, 2002
Cultured skin substitutes reduce donor skin harvesting for closure of excised, full-thickness burnsSteven T Boyce, Richard J Kagan, Kevin P Yakuboff, et al.
Pageof 6

Showing results (41-50 of 60) with videos related to

Sort By:
Pageof 6
Experimental Dermatology|October 20, 2012
Morphogenesis of chimeric hair follicles in engineered skin substitutes with human keratinocytes and murine dermal papilla cellsPenkanok Sriwiriyanont, Kaari A Lynch, Elizabeth A Maier, et al.
The Journal of Investigative Dermatology|October 3, 2009
Engineered human skin substitutes undergo large-scale genomic reprogramming and normal skin-like maturation after transplantation to athymic miceJennifer M Klingenberg, Kevin L McFarland, Aaron J Friedman, et al.
Plos One|March 6, 2019
Identification of Merkel cells associated with neurons in engineered skin substitutes after grafting to full thickness woundsJennifer M Hahn, Kelly A Combs, Christopher M Lloyd, et al.
Pigment Cell & Melanoma Research|June 23, 2017
Restoration of cutaneous pigmentation by transplantation to mice of isogeneic human melanocytes in dermal-epidermal engineered skin substitutesSteven T Boyce, Christopher M Lloyd, Mark C Kleiner, et al.
The Journal of Investigative Dermatology|December 16, 2005
Microarray analysis of gene expression in cultured skin substitutes compared with native human skinAndrea K Smiley, Jennifer M Klingenberg, Bruce J Aronow, et al.
The Journal of Trauma|April 14, 2006
Cultured skin substitutes reduce requirements for harvesting of skin autograft for closure of excised, full-thickness burnsSteven T Boyce, Richard J Kagan, David G Greenhalgh, et al.
Journal of Burn Care & Research : Official Publication of the American Burn Association|February 14, 2020
Light or Dark Pigmentation of Engineered Skin Substitutes Containing Melanocytes Protects Against Ultraviolet Light-Induced DNA Damage In VivoDorothy M Supp, Jennifer M Hahn, Christopher M Lloyd, et al.
Plos One|September 28, 2017
Analysis of chromatin accessibility in human epidermis identifies putative barrier dysfunction-sensing enhancersJulie M Lander, Dorothy M Supp, Hua He, et al.
Wound Repair and Regeneration : Official Publication of the Wound Healing Society [And] the European Tissue Repair Society|June 8, 2012
Assessment of replication rates of human keratinocytes in engineered skin substitutes grafted to athymic miceSteven T Boyce, Rachel K Rice, Kaari A Lynch, et al.
Annals of Surgery|January 25, 2002
Cultured skin substitutes reduce donor skin harvesting for closure of excised, full-thickness burnsSteven T Boyce, Richard J Kagan, Kevin P Yakuboff, et al.
Pageof 6