Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft

Thermal injuries are caused by exposure to a variety of sources, and split thickness skin grafts are the gold standard treatment for severe burns; however, they may be impossible when there is no donor skin available. Large total body surface area burns leave patients with limited donor site availab...

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Autores principales: Stone, Randolph, Saathoff, Emily C., Larson, David A., Wall, John T., Wienandt, Nathan A., Magnusson, Skuli, Kjartansson, Hilmar, Natesan, Shanmugasundaram, Christy, Robert J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7915828/
https://www.ncbi.nlm.nih.gov/pubmed/33557424
http://dx.doi.org/10.3390/ijms22041590
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author Stone, Randolph
Saathoff, Emily C.
Larson, David A.
Wall, John T.
Wienandt, Nathan A.
Magnusson, Skuli
Kjartansson, Hilmar
Natesan, Shanmugasundaram
Christy, Robert J.
author_facet Stone, Randolph
Saathoff, Emily C.
Larson, David A.
Wall, John T.
Wienandt, Nathan A.
Magnusson, Skuli
Kjartansson, Hilmar
Natesan, Shanmugasundaram
Christy, Robert J.
author_sort Stone, Randolph
collection PubMed
description Thermal injuries are caused by exposure to a variety of sources, and split thickness skin grafts are the gold standard treatment for severe burns; however, they may be impossible when there is no donor skin available. Large total body surface area burns leave patients with limited donor site availability and create a need for treatments capable of achieving early and complete coverage that can also retain normal skin function. In this preclinical trial, two cellular and tissue based products (CTPs) are evaluated on twenty-four 5 × 5 deep partial thickness (DPT) burn wounds. Using appropriate pain control methods, DPT burn wounds were created on six anesthetized Yorkshire pigs. Wounds were excised one day post-burn and the bleeding wound beds were subsequently treated with omega-3-rich acellular fish skin graft (FSG) or fetal bovine dermis (FBD). FSG was reapplied after 7 days and wounds healed via secondary intentions. Digital images, non-invasive measurements, and punch biopsies were acquired during rechecks performed on days 7, 14, 21, 28, 45, and 60. Multiple qualitative measurements were also employed, including re-epithelialization, contraction rates, hydration, laser speckle, and trans-epidermal water loss (TEWL). Each treatment produced granulated tissue (GT) that would be receptive to skin grafts, if desired; however, the FSG induced GT 7 days earlier. FSG treatment resulted in faster re-epithelialization and reduced wound size at day 14 compared to FBD (50.2% vs. 23.5% and 93.1% vs. 106.7%, p < 0.005, respectively). No differences in TEWL measurements were observed. The FSG integrated into the wound bed quicker as evidenced by lower hydration values at day 21 (309.7 vs. 2500.4 µS, p < 0.05) and higher blood flow at day 14 (4.9 vs. 3.1 fold change increase over normal skin, p < 0.005). Here we show that FSG integrated faster without increased contraction, resulting in quicker wound closure without skin graft application which suggests FSG improved burn wound healing over FBD.
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spelling pubmed-79158282021-03-01 Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft Stone, Randolph Saathoff, Emily C. Larson, David A. Wall, John T. Wienandt, Nathan A. Magnusson, Skuli Kjartansson, Hilmar Natesan, Shanmugasundaram Christy, Robert J. Int J Mol Sci Article Thermal injuries are caused by exposure to a variety of sources, and split thickness skin grafts are the gold standard treatment for severe burns; however, they may be impossible when there is no donor skin available. Large total body surface area burns leave patients with limited donor site availability and create a need for treatments capable of achieving early and complete coverage that can also retain normal skin function. In this preclinical trial, two cellular and tissue based products (CTPs) are evaluated on twenty-four 5 × 5 deep partial thickness (DPT) burn wounds. Using appropriate pain control methods, DPT burn wounds were created on six anesthetized Yorkshire pigs. Wounds were excised one day post-burn and the bleeding wound beds were subsequently treated with omega-3-rich acellular fish skin graft (FSG) or fetal bovine dermis (FBD). FSG was reapplied after 7 days and wounds healed via secondary intentions. Digital images, non-invasive measurements, and punch biopsies were acquired during rechecks performed on days 7, 14, 21, 28, 45, and 60. Multiple qualitative measurements were also employed, including re-epithelialization, contraction rates, hydration, laser speckle, and trans-epidermal water loss (TEWL). Each treatment produced granulated tissue (GT) that would be receptive to skin grafts, if desired; however, the FSG induced GT 7 days earlier. FSG treatment resulted in faster re-epithelialization and reduced wound size at day 14 compared to FBD (50.2% vs. 23.5% and 93.1% vs. 106.7%, p < 0.005, respectively). No differences in TEWL measurements were observed. The FSG integrated into the wound bed quicker as evidenced by lower hydration values at day 21 (309.7 vs. 2500.4 µS, p < 0.05) and higher blood flow at day 14 (4.9 vs. 3.1 fold change increase over normal skin, p < 0.005). Here we show that FSG integrated faster without increased contraction, resulting in quicker wound closure without skin graft application which suggests FSG improved burn wound healing over FBD. MDPI 2021-02-04 /pmc/articles/PMC7915828/ /pubmed/33557424 http://dx.doi.org/10.3390/ijms22041590 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Stone, Randolph
Saathoff, Emily C.
Larson, David A.
Wall, John T.
Wienandt, Nathan A.
Magnusson, Skuli
Kjartansson, Hilmar
Natesan, Shanmugasundaram
Christy, Robert J.
Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft
title Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft
title_full Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft
title_fullStr Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft
title_full_unstemmed Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft
title_short Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft
title_sort accelerated wound closure of deep partial thickness burns with acellular fish skin graft
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7915828/
https://www.ncbi.nlm.nih.gov/pubmed/33557424
http://dx.doi.org/10.3390/ijms22041590
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