Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds

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Standard

Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds. / Danielsen, Patricia L; Lerche, Catharina M; Wulf, Hans Christian; Jorgensen, Lars N; Liedberg, Ann-Sofie H; Hansson, Christer; Ågren, Magnus S.

I: Photochemistry and Photobiology, Bind 92, Nr. 1, 02.2016, s. 187-92.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Danielsen, PL, Lerche, CM, Wulf, HC, Jorgensen, LN, Liedberg, A-SH, Hansson, C & Ågren, MS 2016, 'Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds', Photochemistry and Photobiology, bind 92, nr. 1, s. 187-92. https://doi.org/10.1111/php.12552

APA

Danielsen, P. L., Lerche, C. M., Wulf, H. C., Jorgensen, L. N., Liedberg, A-S. H., Hansson, C., & Ågren, M. S. (2016). Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds. Photochemistry and Photobiology, 92(1), 187-92. https://doi.org/10.1111/php.12552

Vancouver

Danielsen PL, Lerche CM, Wulf HC, Jorgensen LN, Liedberg A-SH, Hansson C o.a. Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds. Photochemistry and Photobiology. 2016 feb.;92(1):187-92. https://doi.org/10.1111/php.12552

Author

Danielsen, Patricia L ; Lerche, Catharina M ; Wulf, Hans Christian ; Jorgensen, Lars N ; Liedberg, Ann-Sofie H ; Hansson, Christer ; Ågren, Magnus S. / Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds. I: Photochemistry and Photobiology. 2016 ; Bind 92, Nr. 1. s. 187-92.

Bibtex

@article{74fb68f8cfad4e109f8fb4294be4e894,
title = "Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds",
abstract = "We hypothesized that priming of the skin with ultraviolet radiation (UVR) before being injured would enhance wound healing. Four groups, each comprising 20 immunocompetent hairless mice, were exposed to simulated solar irradiation in escalating UVR doses; 0 standard erythema dose (SED) = control, 1 SED, 3 SED and 5 SED. Twenty-four hours after UV irradiation, inflammation was quantified by skin reflectance (erythema) and myeloperoxidase (MPO) tissue levels, and two 6 mm full-thickness excisional wounds and one 3 cm incisional wound were inflicted. Epidermal hyperplasia was assessed by quantitative histology. Five days after wounding, wound coverage by neoepithelium and wound width of the excisional wounds was quantified in hematoxylin-eosin sections, and breaking strength was measured in strips from incisional wounds. Erythema (P < 0.001), MPO levels (P < 0.0005) and epidermal cell layers (P < 0.001) increased dose-dependently by UV exposure of dorsal skin. In the excisional wounds, epithelial coverage decreased (P = 0.024) by increasing the UVR dose, whereas there was no significant difference (P = 0.765) in wound MPO levels. Neither wound width (P = 0.850) nor breaking strength (P = 0.320) differed among the groups. Solar-simulated UVR 24 h before wounding impaired epithelialization but was not detrimental for surgical incisional wound healing.",
keywords = "Journal Article",
author = "Danielsen, {Patricia L} and Lerche, {Catharina M} and Wulf, {Hans Christian} and Jorgensen, {Lars N} and Liedberg, {Ann-Sofie H} and Christer Hansson and {\AA}gren, {Magnus S}",
note = "{\textcopyright} 2015 The American Society of Photobiology.",
year = "2016",
month = feb,
doi = "10.1111/php.12552",
language = "English",
volume = "92",
pages = "187--92",
journal = "Photochemistry and Photobiology",
issn = "0031-8655",
publisher = "Wiley-Blackwell",
number = "1",

}

RIS

TY - JOUR

T1 - Acute Ultraviolet Radiation Perturbs Epithelialization but not the Biomechanical Strength of Full-thickness Cutaneous Wounds

AU - Danielsen, Patricia L

AU - Lerche, Catharina M

AU - Wulf, Hans Christian

AU - Jorgensen, Lars N

AU - Liedberg, Ann-Sofie H

AU - Hansson, Christer

AU - Ågren, Magnus S

N1 - © 2015 The American Society of Photobiology.

PY - 2016/2

Y1 - 2016/2

N2 - We hypothesized that priming of the skin with ultraviolet radiation (UVR) before being injured would enhance wound healing. Four groups, each comprising 20 immunocompetent hairless mice, were exposed to simulated solar irradiation in escalating UVR doses; 0 standard erythema dose (SED) = control, 1 SED, 3 SED and 5 SED. Twenty-four hours after UV irradiation, inflammation was quantified by skin reflectance (erythema) and myeloperoxidase (MPO) tissue levels, and two 6 mm full-thickness excisional wounds and one 3 cm incisional wound were inflicted. Epidermal hyperplasia was assessed by quantitative histology. Five days after wounding, wound coverage by neoepithelium and wound width of the excisional wounds was quantified in hematoxylin-eosin sections, and breaking strength was measured in strips from incisional wounds. Erythema (P < 0.001), MPO levels (P < 0.0005) and epidermal cell layers (P < 0.001) increased dose-dependently by UV exposure of dorsal skin. In the excisional wounds, epithelial coverage decreased (P = 0.024) by increasing the UVR dose, whereas there was no significant difference (P = 0.765) in wound MPO levels. Neither wound width (P = 0.850) nor breaking strength (P = 0.320) differed among the groups. Solar-simulated UVR 24 h before wounding impaired epithelialization but was not detrimental for surgical incisional wound healing.

AB - We hypothesized that priming of the skin with ultraviolet radiation (UVR) before being injured would enhance wound healing. Four groups, each comprising 20 immunocompetent hairless mice, were exposed to simulated solar irradiation in escalating UVR doses; 0 standard erythema dose (SED) = control, 1 SED, 3 SED and 5 SED. Twenty-four hours after UV irradiation, inflammation was quantified by skin reflectance (erythema) and myeloperoxidase (MPO) tissue levels, and two 6 mm full-thickness excisional wounds and one 3 cm incisional wound were inflicted. Epidermal hyperplasia was assessed by quantitative histology. Five days after wounding, wound coverage by neoepithelium and wound width of the excisional wounds was quantified in hematoxylin-eosin sections, and breaking strength was measured in strips from incisional wounds. Erythema (P < 0.001), MPO levels (P < 0.0005) and epidermal cell layers (P < 0.001) increased dose-dependently by UV exposure of dorsal skin. In the excisional wounds, epithelial coverage decreased (P = 0.024) by increasing the UVR dose, whereas there was no significant difference (P = 0.765) in wound MPO levels. Neither wound width (P = 0.850) nor breaking strength (P = 0.320) differed among the groups. Solar-simulated UVR 24 h before wounding impaired epithelialization but was not detrimental for surgical incisional wound healing.

KW - Journal Article

U2 - 10.1111/php.12552

DO - 10.1111/php.12552

M3 - Journal article

C2 - 26645701

VL - 92

SP - 187

EP - 192

JO - Photochemistry and Photobiology

JF - Photochemistry and Photobiology

SN - 0031-8655

IS - 1

ER -

ID: 164512515