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Novel approach to monitor local tissue ischemia associated with pressure ulcers using an optical fibre carbon dioxide sensor

Novel approach to monitor local tissue ischemia associated with pressure ulcers using an optical fibre carbon dioxide sensor
Novel approach to monitor local tissue ischemia associated with pressure ulcers using an optical fibre carbon dioxide sensor

In this paper, we describe the development of a novel approach to monitor local tissue ischemia associated with pressure ulcer using an optical fibre carbon dioxide sensor. Carbon dioxide (CO2) is a potential biomarker for local tissue ischemia associated with pressure ulcer (PU) formation. Skin CO2 measurement during loading could provide an earlier indicator for pressure induced tissue damage. This study presents a reflection mode optical fibre CO2 sensor (OFCS) that was fabricated and evaluated for measuring skin CO2 during mechanical loading. The optical fibre tip was coated with organically modified silica gel (ormosil) film (thickness 7.23 ± 0.52 μm) containing thymol blue using a dip coating process. Thymol blue has an absorption peak at a wavelength of ~600 nm with an amplitude proportional to CO2 concentration. The OFCS had a typical response time of approximately 60 seconds and a recovery time of 400 seconds for a 0-5.5% CO2 range. OFCSs were tested on the human skin of six healthy volunteers with corresponding CO2 peak values ranging from 145 ppm to 429 ppm with a percent error range of 6-32.2%. The increase in CO2 emitted from the skin during loading offers future promise for alerting the early stage of PU formation.

2635-0998
791-802
Afroze, Nadia
293ce7d1-4855-41d5-9f14-7e70ee786d20
Korposh, Serhiy
12b4b909-3b02-4fbe-ac91-f4fd90f568e9
Correia, Ricardo
0c5e5533-0d60-46a2-8fd2-31e3c3fe56d1
Worsley, Peter R.
6d33aee3-ef43-468d-aef6-86d190de6756
Hayes-Gill, Barrie R.
5219c7e7-e151-4ab6-98a3-635459c0292f
Lee, Seung Woo
e7436509-6f32-43e4-99c2-421e1397ad1e
Morgan, Stephen P.
25c69bfc-e365-4dbb-b947-8d384170cdd1
Afroze, Nadia
293ce7d1-4855-41d5-9f14-7e70ee786d20
Korposh, Serhiy
12b4b909-3b02-4fbe-ac91-f4fd90f568e9
Correia, Ricardo
0c5e5533-0d60-46a2-8fd2-31e3c3fe56d1
Worsley, Peter R.
6d33aee3-ef43-468d-aef6-86d190de6756
Hayes-Gill, Barrie R.
5219c7e7-e151-4ab6-98a3-635459c0292f
Lee, Seung Woo
e7436509-6f32-43e4-99c2-421e1397ad1e
Morgan, Stephen P.
25c69bfc-e365-4dbb-b947-8d384170cdd1

Afroze, Nadia, Korposh, Serhiy, Correia, Ricardo, Worsley, Peter R., Hayes-Gill, Barrie R., Lee, Seung Woo and Morgan, Stephen P. (2025) Novel approach to monitor local tissue ischemia associated with pressure ulcers using an optical fibre carbon dioxide sensor. Sensors and Diagnostics, 4 (9), 791-802. (doi:10.1039/d5sd00043b).

Record type: Article

Abstract

In this paper, we describe the development of a novel approach to monitor local tissue ischemia associated with pressure ulcer using an optical fibre carbon dioxide sensor. Carbon dioxide (CO2) is a potential biomarker for local tissue ischemia associated with pressure ulcer (PU) formation. Skin CO2 measurement during loading could provide an earlier indicator for pressure induced tissue damage. This study presents a reflection mode optical fibre CO2 sensor (OFCS) that was fabricated and evaluated for measuring skin CO2 during mechanical loading. The optical fibre tip was coated with organically modified silica gel (ormosil) film (thickness 7.23 ± 0.52 μm) containing thymol blue using a dip coating process. Thymol blue has an absorption peak at a wavelength of ~600 nm with an amplitude proportional to CO2 concentration. The OFCS had a typical response time of approximately 60 seconds and a recovery time of 400 seconds for a 0-5.5% CO2 range. OFCSs were tested on the human skin of six healthy volunteers with corresponding CO2 peak values ranging from 145 ppm to 429 ppm with a percent error range of 6-32.2%. The increase in CO2 emitted from the skin during loading offers future promise for alerting the early stage of PU formation.

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Accepted/In Press date: 1 July 2025
Published date: 11 September 2025
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Identifiers

Local EPrints ID: 506274
URI: http://eprints.soton.ac.uk/id/eprint/506274
DOI: doi:10.1039/d5sd00043b
ISSN: 2635-0998
PURE UUID: 1d5fcd4f-50ea-41e2-85d6-d39b2b8fdea4
ORCID for Peter R. Worsley: ORCID iD orcid.org/0000-0003-0145-5042

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Date deposited: 31 Oct 2025 17:52
Last modified: 01 Nov 2025 02:41

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Contributors

Author: Nadia Afroze
Author: Serhiy Korposh
Author: Ricardo Correia
Author: Peter R. Worsley ORCID iD
Author: Barrie R. Hayes-Gill
Author: Seung Woo Lee
Author: Stephen P. Morgan

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