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The use of a protein network analysis to explore the complexity of early skin inflammation after oronasal mask application- a pilot study

The use of a protein network analysis to explore the complexity of early skin inflammation after oronasal mask application- a pilot study
The use of a protein network analysis to explore the complexity of early skin inflammation after oronasal mask application- a pilot study

Medical devices, such as non-invasive ventilation masks, save lives in health care settings but can be a cause of tissue injuries due to the pressure and shear loads on skin and soft tissue. These pressure injuries could be painful for the individual and cause a significant economic impact on healthcare providers. In the etiology of device related pressure ulcers, inflammation plays an important role. However, the exact nature and timing of inflammatory biomarker upregulation is still unknown in the early stages of skin damage. This study aimed to explore the inflammatory profile of vulnerable skin sites following non-invasive mask application on a convenience sample of eleven hospital patients. Seventy-one inflammatory proteins were explored from sebum sampled at the skin surface after oronasal mask application. A multivariate analysis to investigate differences between loaded and control site was conducted, with a protein network analysis used to explore interactions in the early inflammation. The study revealed that 21 cytokines and chemokines were important for the separation between loaded and control site. These proteins were associated with remodeling of tissue, vascular wound healing and/or cell death.

Adult, Aged, Biomarkers, Cytokines/metabolism, Female, Humans, Inflammation/metabolism, Male, Masks/adverse effects, Middle Aged, Pilot Projects, Pressure Ulcer/etiology, Protein Interaction Maps, Skin/metabolism, Wound Healing
2045-2322
Feldt, Amanda
42252e92-a4b1-4a90-bdd1-6f7a55475924
Ghafouri, Bijar
95febde5-e736-4b83-908f-27033b927fc3
Worsley, Peter R
44bc022c-0bea-4df9-bfb7-f3469992bfa1
Bergstrand, Sara
fe8caaa4-08b8-49fb-8eda-ddd6ec59d83f
Feldt, Amanda
42252e92-a4b1-4a90-bdd1-6f7a55475924
Ghafouri, Bijar
95febde5-e736-4b83-908f-27033b927fc3
Worsley, Peter R
44bc022c-0bea-4df9-bfb7-f3469992bfa1
Bergstrand, Sara
fe8caaa4-08b8-49fb-8eda-ddd6ec59d83f

Feldt, Amanda, Ghafouri, Bijar, Worsley, Peter R and Bergstrand, Sara (2024) The use of a protein network analysis to explore the complexity of early skin inflammation after oronasal mask application- a pilot study. Scientific Reports, 14 (1), [16691]. (doi:10.1038/s41598-024-67583-9).

Record type: Article

Abstract

Medical devices, such as non-invasive ventilation masks, save lives in health care settings but can be a cause of tissue injuries due to the pressure and shear loads on skin and soft tissue. These pressure injuries could be painful for the individual and cause a significant economic impact on healthcare providers. In the etiology of device related pressure ulcers, inflammation plays an important role. However, the exact nature and timing of inflammatory biomarker upregulation is still unknown in the early stages of skin damage. This study aimed to explore the inflammatory profile of vulnerable skin sites following non-invasive mask application on a convenience sample of eleven hospital patients. Seventy-one inflammatory proteins were explored from sebum sampled at the skin surface after oronasal mask application. A multivariate analysis to investigate differences between loaded and control site was conducted, with a protein network analysis used to explore interactions in the early inflammation. The study revealed that 21 cytokines and chemokines were important for the separation between loaded and control site. These proteins were associated with remodeling of tissue, vascular wound healing and/or cell death.

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The use of a protein network analysis to explore skin inflammation after oronasal mask - Accepted Manuscript
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Accepted/In Press date: 12 July 2024
Published date: 19 July 2024
Keywords: Adult, Aged, Biomarkers, Cytokines/metabolism, Female, Humans, Inflammation/metabolism, Male, Masks/adverse effects, Middle Aged, Pilot Projects, Pressure Ulcer/etiology, Protein Interaction Maps, Skin/metabolism, Wound Healing
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Identifiers

Local EPrints ID: 492881
URI: http://eprints.soton.ac.uk/id/eprint/492881
DOI: doi:10.1038/s41598-024-67583-9
ISSN: 2045-2322
PURE UUID: 768c7b54-35ab-48a3-87fd-df01bf185043

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Date deposited: 19 Aug 2024 16:41
Last modified: 19 Aug 2024 16:43

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Contributors

Author: Amanda Feldt
Author: Bijar Ghafouri
Author: Peter R Worsley
Author: Sara Bergstrand

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