Characterisation of superficial corneocytes in skin areas of the face exposed to prolonged usage of respirators by healthcare professionals during COVID-19 pandemic
Characterisation of superficial corneocytes in skin areas of the face exposed to prolonged usage of respirators by healthcare professionals during COVID-19 pandemic
Introduction: During the COVID-19 pandemic healthcare workers (HCWs) have used respiratory protective equipment for prolonged periods, which has been associated with detrimental effects on the underlying skin. The present study aims to evaluate changes in the main cells (corneocytes) of the stratum corneum (SC) following prolonged and consecutive use of respirators.
Methods: 17 HCWs who wore respirators daily during routine hospital practice were recruited to a longitudinal cohort study. Corneocytes were collected via tape stripping from a negative control site (area outside the respirator) and from the cheek which was in contact with the device. Corneocytes were sampled on three occasions and analysed for the level of positive-involucrin cornified envelopes (CEs) and the amount of desmoglein-1 (Dsg1), as indirect measurements of immature CEs and corneodesmosomes (CDs), respectively. These were compared to biophysical measurements (Transepidermal water loss, TEWL, and SC hydration) at the same investigation sites
RESULTS
Results: A large degree of inter-subject variability was observed, with maximum coefficients of variation of 43% and 30% for the level of immature CEs and Dsg1, respectively. Although it was observed that there was not an effect of prolonged respirator usage on the properties of corneocytes, the level of CDs was greater at the cheek than the negative control site (p < 0.05). Furthermore, low levels of immature CEs correlated with greater TEWL values after prolonged respirator application (p < 0.01). It was also noted that a smaller proportion of immature CEs and CDs was associated with a reduced incidence of self-reported skin adverse reactions (p < 0.001).
Conclusions: This is the first study that investigated changes in corneocyte properties in the context of prolonged mechanical loading following respirator application. Although differences were not recorded over time, the levels of CDs and immature CEs were consistently higher in the loaded cheek compared to the negative control site and were positively correlated with a greater number of self-reported skin adverse reactions. Further studies are required to evaluate the role of corneocyte characteristics in the evaluation of both healthy and damaged skin sites.
COVID-19, Corneocytes, Corneodesmosomes, Cornified envelope, Desmoglein-1, Personal protective equipment (PPE)
305-313
S Évora, Ana
98efe685-21e8-4aea-acc1-8c7f436e5032
Abiakam, Nkemjika
26818cc2-758e-4fa2-b1c3-8fef0ae82c4a
Jayabal, Hemalatha
a58e780f-5a28-4e20-81c9-50a7ad299b0b
Worsley, Peter R.
6d33aee3-ef43-468d-aef6-86d190de6756
Zhang, Zhibing
56a69379-c6c8-4b29-a84f-5b13855c6249
A Johnson, Simon
1db7bafa-9817-40fa-9759-7e24dd87302e
J Adams, Michael
95a294f9-5f45-42c4-b03d-a8836f435dbf
Bader, Dan L.
9884d4f6-2607-4d48-bf0c-62bdcc0d1dbf
May 2023
S Évora, Ana
98efe685-21e8-4aea-acc1-8c7f436e5032
Abiakam, Nkemjika
26818cc2-758e-4fa2-b1c3-8fef0ae82c4a
Jayabal, Hemalatha
a58e780f-5a28-4e20-81c9-50a7ad299b0b
Worsley, Peter R.
6d33aee3-ef43-468d-aef6-86d190de6756
Zhang, Zhibing
56a69379-c6c8-4b29-a84f-5b13855c6249
A Johnson, Simon
1db7bafa-9817-40fa-9759-7e24dd87302e
J Adams, Michael
95a294f9-5f45-42c4-b03d-a8836f435dbf
Bader, Dan L.
9884d4f6-2607-4d48-bf0c-62bdcc0d1dbf
S Évora, Ana, Abiakam, Nkemjika, Jayabal, Hemalatha, Worsley, Peter R., Zhang, Zhibing, A Johnson, Simon, J Adams, Michael and Bader, Dan L.
(2023)
Characterisation of superficial corneocytes in skin areas of the face exposed to prolonged usage of respirators by healthcare professionals during COVID-19 pandemic.
Journal of Tissue Viability, 32 (2), .
(doi:10.1016/j.jtv.2023.02.007).
Abstract
Introduction: During the COVID-19 pandemic healthcare workers (HCWs) have used respiratory protective equipment for prolonged periods, which has been associated with detrimental effects on the underlying skin. The present study aims to evaluate changes in the main cells (corneocytes) of the stratum corneum (SC) following prolonged and consecutive use of respirators.
Methods: 17 HCWs who wore respirators daily during routine hospital practice were recruited to a longitudinal cohort study. Corneocytes were collected via tape stripping from a negative control site (area outside the respirator) and from the cheek which was in contact with the device. Corneocytes were sampled on three occasions and analysed for the level of positive-involucrin cornified envelopes (CEs) and the amount of desmoglein-1 (Dsg1), as indirect measurements of immature CEs and corneodesmosomes (CDs), respectively. These were compared to biophysical measurements (Transepidermal water loss, TEWL, and SC hydration) at the same investigation sites
RESULTS
Results: A large degree of inter-subject variability was observed, with maximum coefficients of variation of 43% and 30% for the level of immature CEs and Dsg1, respectively. Although it was observed that there was not an effect of prolonged respirator usage on the properties of corneocytes, the level of CDs was greater at the cheek than the negative control site (p < 0.05). Furthermore, low levels of immature CEs correlated with greater TEWL values after prolonged respirator application (p < 0.01). It was also noted that a smaller proportion of immature CEs and CDs was associated with a reduced incidence of self-reported skin adverse reactions (p < 0.001).
Conclusions: This is the first study that investigated changes in corneocyte properties in the context of prolonged mechanical loading following respirator application. Although differences were not recorded over time, the levels of CDs and immature CEs were consistently higher in the loaded cheek compared to the negative control site and were positively correlated with a greater number of self-reported skin adverse reactions. Further studies are required to evaluate the role of corneocyte characteristics in the evaluation of both healthy and damaged skin sites.
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More information
Accepted/In Press date: 10 February 2023
Published date: May 2023
Additional Information:
Funding Information:
This work was supported by the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 811965 (Project STINTS - Skin Tissue Integrity under Shear).
Publisher Copyright:
© 2023 The Authors
Keywords:
COVID-19, Corneocytes, Corneodesmosomes, Cornified envelope, Desmoglein-1, Personal protective equipment (PPE)
Identifiers
Local EPrints ID: 475738
URI: http://eprints.soton.ac.uk/id/eprint/475738
ISSN: 0965-206X
PURE UUID: 1da81f73-aa2a-4f5d-85d8-3d045dad0cca
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Date deposited: 27 Mar 2023 16:44
Last modified: 17 Mar 2024 03:59
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Contributors
Author:
Ana S Évora
Author:
Nkemjika Abiakam
Author:
Hemalatha Jayabal
Author:
Zhibing Zhang
Author:
Simon A Johnson
Author:
Michael J Adams
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