Skin adaptation in lower limb amputees assessed through Raman spectroscopy and mechanical characterization
Skin adaptation in lower limb amputees assessed through Raman spectroscopy and mechanical characterization
Following lower limb amputation residuum skin from the lower leg is used to reconstruct the residual limb. Unlike skin on the sole of the foot (plantar skin), leg skin is not inherently load bearing. Despite this, leg skin is required to be load bearing in the prosthetic socket. Current hypotheses propose that lower limb amputee skin can adapt to become load bearing with repeated prosthesis use. Here, we show using confocal Raman spectroscopy, mechanical characterization and cytokine analysis that adaptations occur which actually result in impaired barrier function, higher baseline inflammation, increased coefficient of friction and reduced stiffness. Our results demonstrate that repeated frictional trauma does not confer beneficial adaptations in amputee skin. We hypothesize that non-plantar skin lacks the biological capabilities to respond positively to repeated mechanical trauma in the same manner observed in plantar skin. This finding highlights the need for improved therapies as opposed to current mechanical conditioning or product solutions that directly relate to improving load-bearing capacity on the skin of lower limb amputees. This study also highlights the importance of measuring multiple parameters of application-specific skin at different scales for skin tribology applications.
Adaptation, Physiological/physiology, Adult, Amputees, Artificial Limbs, Female, Humans, Lower Extremity, Male, Middle Aged, Skin Physiological Phenomena, Skin/metabolism, Spectrum Analysis, Raman/methods, Weight-Bearing/physiology, confocal Raman spectroscopy, friction, skin surface, stratum corneum, indentation, inflammation
Hayes, Jack
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Andrews, Jennifer
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Abdelwahab, Omar
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Andriuskevicius, Tomas
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Briggs, Tom
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Gordon, Ralph
00e4cfb1-43a6-4702-acd1-e6f2643f7531
Worsley, Peter
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Higgins, Claire A.
7fc8e28f-a50b-4da5-8db8-8008999ebfdd
Masen, Marc
f762f15a-e281-4c83-bf46-d698f681c6ec
8 January 2025
Hayes, Jack
721252dc-75be-45b8-a0a0-8e5541202072
Andrews, Jennifer
32ba41bb-baf1-4e03-b7ff-cf1e841f2db1
Abdelwahab, Omar
aa3ea3f2-1ba6-40a6-b26f-b88d12b5807f
Andriuskevicius, Tomas
95059bd2-beb3-4993-9ef9-f5deef0009cc
Briggs, Tom
f80d43d7-1c40-4416-b96a-fbdda4d40916
Gordon, Ralph
00e4cfb1-43a6-4702-acd1-e6f2643f7531
Worsley, Peter
6d33aee3-ef43-468d-aef6-86d190de6756
Higgins, Claire A.
7fc8e28f-a50b-4da5-8db8-8008999ebfdd
Masen, Marc
f762f15a-e281-4c83-bf46-d698f681c6ec
Hayes, Jack, Andrews, Jennifer, Abdelwahab, Omar, Andriuskevicius, Tomas, Briggs, Tom, Gordon, Ralph, Worsley, Peter, Higgins, Claire A. and Masen, Marc
(2025)
Skin adaptation in lower limb amputees assessed through Raman spectroscopy and mechanical characterization.
Journal of the Royal Society Interface, 22 (222), [20240475].
(doi:10.1098/rsif.2024.0475).
Abstract
Following lower limb amputation residuum skin from the lower leg is used to reconstruct the residual limb. Unlike skin on the sole of the foot (plantar skin), leg skin is not inherently load bearing. Despite this, leg skin is required to be load bearing in the prosthetic socket. Current hypotheses propose that lower limb amputee skin can adapt to become load bearing with repeated prosthesis use. Here, we show using confocal Raman spectroscopy, mechanical characterization and cytokine analysis that adaptations occur which actually result in impaired barrier function, higher baseline inflammation, increased coefficient of friction and reduced stiffness. Our results demonstrate that repeated frictional trauma does not confer beneficial adaptations in amputee skin. We hypothesize that non-plantar skin lacks the biological capabilities to respond positively to repeated mechanical trauma in the same manner observed in plantar skin. This finding highlights the need for improved therapies as opposed to current mechanical conditioning or product solutions that directly relate to improving load-bearing capacity on the skin of lower limb amputees. This study also highlights the importance of measuring multiple parameters of application-specific skin at different scales for skin tribology applications.
Text
hayes-et-al-2025-skin-adaptation-in-lower-limb-amputees-assessed-through-raman-spectroscopy-and-mechanical
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More information
Accepted/In Press date: 19 November 2024
Published date: 8 January 2025
Keywords:
Adaptation, Physiological/physiology, Adult, Amputees, Artificial Limbs, Female, Humans, Lower Extremity, Male, Middle Aged, Skin Physiological Phenomena, Skin/metabolism, Spectrum Analysis, Raman/methods, Weight-Bearing/physiology, confocal Raman spectroscopy, friction, skin surface, stratum corneum, indentation, inflammation
Identifiers
Local EPrints ID: 497846
URI: http://eprints.soton.ac.uk/id/eprint/497846
ISSN: 1742-5689
PURE UUID: 8d1cb0f2-0a21-429f-96d2-823068ea2e19
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Date deposited: 03 Feb 2025 17:42
Last modified: 11 Mar 2025 03:11
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Contributors
Author:
Jack Hayes
Author:
Jennifer Andrews
Author:
Omar Abdelwahab
Author:
Tomas Andriuskevicius
Author:
Tom Briggs
Author:
Ralph Gordon
Author:
Claire A. Higgins
Author:
Marc Masen
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