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A review of the role of the partial pressure of Carbon Dioxide in mechanically loaded tissues: the canary in the cage singing in tune with the pressure ulcer mantra

A review of the role of the partial pressure of Carbon Dioxide in mechanically loaded tissues: the canary in the cage singing in tune with the pressure ulcer mantra
A review of the role of the partial pressure of Carbon Dioxide in mechanically loaded tissues: the canary in the cage singing in tune with the pressure ulcer mantra
Pressure ulcers (PUs) can occur in any situations where people are subjected to non-uniform distribution of pressure over a prolonged period. They can have devastating effects on the patients' well-being and in extreme conditions can prove fatal. In addition to traditional wisdom implicating mechanically induced ischaemia, there is strong evidence that other mechanisms play a role in the cascade of events which can initiate the PU damage process at the cellular level. Some of these refer to a metabolic imbalance with compromised delivery of nutrients and accumulation of waste products in the local environment of the cells. The approach of much research has focused on the measure of oxygen in compressed tissues as a means of predicting early damage. However, the present review adopting a hierarchical approach, using length scales ranging from cells through to human models, has revealed compelling evidence which highlights the importance of carbon dioxide levels and associated concentration of other metabolites, such as lactate and purines. The temporal profiles of these metabolites have been monitored in the various models subjected to periods of mechanical-induced loading where the localized cells have converted to anaerobic metabolism. They reveal threshold levels of carbon dioxide which might be indicative of early tissue damage during both mechanical-induced ischaemia and subsequent reperfusion and an appropriate sensor could be used in a similar manner to the long-standing "canary in a cage" method to detect toxic gasses in enclosed mines.
pressure ulcers, ischemia, partial pressure of carbon dioxide, perfusion, mechanical loaded tissues
0090-6964
Peyman, Mirtaher
4c5b3d6d-1718-43c0-aefc-c8d1a755b4c2
Terje, Gjøvaa
4d26772b-85f5-4c06-ad07-11390b54b76f
Worsley, Peter
6d33aee3-ef43-468d-aef6-86d190de6756
Bader, Dan L.
9884d4f6-2607-4d48-bf0c-62bdcc0d1dbf
Peyman, Mirtaher
4c5b3d6d-1718-43c0-aefc-c8d1a755b4c2
Terje, Gjøvaa
4d26772b-85f5-4c06-ad07-11390b54b76f
Worsley, Peter
6d33aee3-ef43-468d-aef6-86d190de6756
Bader, Dan L.
9884d4f6-2607-4d48-bf0c-62bdcc0d1dbf

Peyman, Mirtaher, Terje, Gjøvaa, Worsley, Peter and Bader, Dan L. (2014) A review of the role of the partial pressure of Carbon Dioxide in mechanically loaded tissues: the canary in the cage singing in tune with the pressure ulcer mantra. Annals of Biomedical Engineering. (doi:10.1007/s10439-014-1233-z). (PMID:25533770)

Record type: Article

Abstract

Pressure ulcers (PUs) can occur in any situations where people are subjected to non-uniform distribution of pressure over a prolonged period. They can have devastating effects on the patients' well-being and in extreme conditions can prove fatal. In addition to traditional wisdom implicating mechanically induced ischaemia, there is strong evidence that other mechanisms play a role in the cascade of events which can initiate the PU damage process at the cellular level. Some of these refer to a metabolic imbalance with compromised delivery of nutrients and accumulation of waste products in the local environment of the cells. The approach of much research has focused on the measure of oxygen in compressed tissues as a means of predicting early damage. However, the present review adopting a hierarchical approach, using length scales ranging from cells through to human models, has revealed compelling evidence which highlights the importance of carbon dioxide levels and associated concentration of other metabolites, such as lactate and purines. The temporal profiles of these metabolites have been monitored in the various models subjected to periods of mechanical-induced loading where the localized cells have converted to anaerobic metabolism. They reveal threshold levels of carbon dioxide which might be indicative of early tissue damage during both mechanical-induced ischaemia and subsequent reperfusion and an appropriate sensor could be used in a similar manner to the long-standing "canary in a cage" method to detect toxic gasses in enclosed mines.

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More information

e-pub ahead of print date: 23 December 2014
Keywords: pressure ulcers, ischemia, partial pressure of carbon dioxide, perfusion, mechanical loaded tissues
Organisations: Faculty of Health Sciences

Identifiers

Local EPrints ID: 373047
URI: http://eprints.soton.ac.uk/id/eprint/373047
ISSN: 0090-6964
PURE UUID: bbfca917-49e9-4e2f-a534-1c76f991ccc8
ORCID for Peter Worsley: ORCID iD orcid.org/0000-0003-0145-5042
ORCID for Dan L. Bader: ORCID iD orcid.org/0000-0002-1208-3507

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Date deposited: 06 Jan 2015 13:28
Last modified: 15 Mar 2024 03:31

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Contributors

Author: Mirtaher Peyman
Author: Gjøvaa Terje
Author: Peter Worsley ORCID iD
Author: Dan L. Bader ORCID iD

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