Use of wound edge inversion (epibole) to generate recalcitrant and inflamed diabetic wounds

Robust and predictive pre‐clinical models of recalcitrant diabetic wounds are critical for advancing research efforts toward improving healing. Murine models have logistic and genetic benefits versus larger animals; however, native murine healing inadequately represents clinically recalcitrant wound...

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Veröffentlicht in:	Wound repair and regeneration 2023-01, Vol.31 (1), p.120-127
Hauptverfasser:	Lee, Phoebe L., Loder, Shawn J., Guerrero, David T., Nerone, W. Vincent, Bengur, Fuat Baris, Rubin, J. Peter, Kokai, Lauren E.
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Sprache:	eng
Schlagworte:	Animals chronic wounds diabetes Diabetes Mellitus, Experimental - pathology Humans Mice Re-Epithelialization Reproducibility of Results Skin - pathology surgical models Wound Healing
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container_title	Wound repair and regeneration
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creator	Lee, Phoebe L. Loder, Shawn J. Guerrero, David T. Nerone, W. Vincent Bengur, Fuat Baris Rubin, J. Peter Kokai, Lauren E.
description	Robust and predictive pre‐clinical models of recalcitrant diabetic wounds are critical for advancing research efforts toward improving healing. Murine models have logistic and genetic benefits versus larger animals; however, native murine healing inadequately represents clinically recalcitrant wounds in humans. Furthermore, current humanization techniques employing devices, deleterious mutations or chemical agents each carry model‐specific limitations. To better replicate human wounds in a mouse, we developed a novel wound‐edge inversion (WEI) technique that mimics the architecture of epibole and mitigates contracture, epithelialization, and consequently wound closure. In this study, we evaluated the reliability and durability of the WEI model in wild‐type and obese diabetic mice and compared to healing after (i) punch biopsy, (ii) mechanical/silicone stenting or (iii) exogenous oxidative stressors. In wild‐type mice, WEI demonstrated favourable closure characteristics compared to both control and stented wounds, however, wounds progressed to closure by 4 weeks. In contrast, diabetic WEI wounds persisted for 6–10 weeks with reduced contracture and epithelialization. In both diabetic and wild‐type mice, WEI sites demonstrated persistence of inflammatory populations, absence of epithelialization, and histologic presence of alpha‐SMA positive granulation tissue when compared to controls. We conclude that the WEI technique is particularly valuable for modelling recalcitrant diabetic wounds with sustained inflammation and dysfunctional healing.
doi_str_mv	10.1111/wrr.13046
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In this study, we evaluated the reliability and durability of the WEI model in wild‐type and obese diabetic mice and compared to healing after (i) punch biopsy, (ii) mechanical/silicone stenting or (iii) exogenous oxidative stressors. In wild‐type mice, WEI demonstrated favourable closure characteristics compared to both control and stented wounds, however, wounds progressed to closure by 4 weeks. In contrast, diabetic WEI wounds persisted for 6–10 weeks with reduced contracture and epithelialization. In both diabetic and wild‐type mice, WEI sites demonstrated persistence of inflammatory populations, absence of epithelialization, and histologic presence of alpha‐SMA positive granulation tissue when compared to controls. 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We conclude that the WEI technique is particularly valuable for modelling recalcitrant diabetic wounds with sustained inflammation and dysfunctional healing.</description><subject>Animals</subject><subject>chronic wounds</subject><subject>diabetes</subject><subject>Diabetes Mellitus, Experimental - pathology</subject><subject>Humans</subject><subject>Mice</subject><subject>Re-Epithelialization</subject><subject>Reproducibility of Results</subject><subject>Skin - pathology</subject><subject>surgical models</subject><subject>Wound Healing</subject><issn>1067-1927</issn><issn>1524-475X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kE1LAzEQhoMotlYP_gHJsT2sTTbJbnOU4hcUhGJR8BCy2UmJbHdrsmvpvze61ZtzmYF55oF5Ebqk5JrGmu68v6aM8OwIDalIecJz8XocZ5LlCZVpPkBnIbwTQoSQs1M0YBkRbMblEL2tAuDG4l3T1SWGcg3Y1Z_gg2tqPIatK5oKJrht8Bpq8LoF7MHoyrjW67rFOl652lZ6AyUunS6gdaa3hXN0YnUV4OLQR2h1d_s8f0gWT_eP85tFYtKZyJI8g5wxVlAuCRNGZswC55ASsFCwjBlRcAY2Y1oaXpYWCFCW2yIuRCrj5QiNe-_WNx8dhFZtXDBQVbqGpgsqzYnMmZgJGdFJjxrfhODBqq13G-33ihL1naWKWaqfLCN7ddB2Rfzuj_wNLwLTHti5Cvb_m9TLctkrvwDF635b</recordid><startdate>202301</startdate><enddate>202301</enddate><creator>Lee, Phoebe L.</creator><creator>Loder, Shawn J.</creator><creator>Guerrero, David T.</creator><creator>Nerone, W. 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Peter</au><au>Kokai, Lauren E.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Use of wound edge inversion (epibole) to generate recalcitrant and inflamed diabetic wounds</atitle><jtitle>Wound repair and regeneration</jtitle><addtitle>Wound Repair Regen</addtitle><date>2023-01</date><risdate>2023</risdate><volume>31</volume><issue>1</issue><spage>120</spage><epage>127</epage><pages>120-127</pages><issn>1067-1927</issn><eissn>1524-475X</eissn><abstract>Robust and predictive pre‐clinical models of recalcitrant diabetic wounds are critical for advancing research efforts toward improving healing. Murine models have logistic and genetic benefits versus larger animals; however, native murine healing inadequately represents clinically recalcitrant wounds in humans. Furthermore, current humanization techniques employing devices, deleterious mutations or chemical agents each carry model‐specific limitations. 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subjects	Animals chronic wounds diabetes Diabetes Mellitus, Experimental - pathology Humans Mice Re-Epithelialization Reproducibility of Results Skin - pathology surgical models Wound Healing
title	Use of wound edge inversion (epibole) to generate recalcitrant and inflamed diabetic wounds
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