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In-shoe plantar temperature normal and shear stress relationships during gait and rest periods for people living with and without diabetes

In-shoe plantar temperature normal and shear stress relationships during gait and rest periods for people living with and without diabetes
In-shoe plantar temperature normal and shear stress relationships during gait and rest periods for people living with and without diabetes
Diabetic foot ulcers (DFUs) are a common complication of diabetes. This study aims to investigate the relationships between in-shoe plantar temperature, normal and shear stress during walking and rest periods for participants with and without diabetes. For this purpose, a novel temperature, normal and shear stress sensing system was developed and embedded in an insole at the hallux, first metatarsal head and calcaneus region. Ten participants living with diabetes with no history of previous ulceration and ten healthy participants were recruited. Participants walked on a treadmill for 15 min and then rested for 20 min wearing the sensing insole. Results showed high correlation (Spearman’s rs ≥ 0.917) between heat energy, total plantar temperature change, during walking and strain energy, cumulative stress squared in all participants. Importantly, between-group comparisons showed indications of thermal regulation differences in participants with and without diabetes, with the first metatarsal head site showing significantly higher temperature at the end of the active period (P = 0.0097) although walking speed and mechanical stress were similar. This research demonstrates for the first time the correlation between strain energy and heat energy in-shoe during gait. Further research is needed to quantify relationships and investigate thermal regulation as a mechanism for DFU formation.
2045-2322
Haron, Athia
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Shuang, Jiawei
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Lin, Chaofan
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Mansoubi, Maedeh
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Shi, Xiyu
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Horn, Daniel
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Reeves, Neil
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Bowling, Frank
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Eccles, Andrew
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Bradbury, Katherine
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Dogan, Safak
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Dawes, Helen
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Cooper, Glen
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Weightman, Andrew
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Haron, Athia
551a89b1-0661-4bfe-a69c-61358f41f735
Shuang, Jiawei
78deb9c4-8fd9-49ac-a7d8-00727f38408e
Lin, Chaofan
cada4441-1b31-4d1a-988f-1618ad1acbb2
Mansoubi, Maedeh
1306768c-cdca-482c-b833-510d67261402
Shi, Xiyu
2badf62a-74ca-4a74-a04a-951917413619
Horn, Daniel
9a54f6c5-677c-428a-b111-146893c59f6d
Reeves, Neil
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Bowling, Frank
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Eccles, Andrew
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Bradbury, Katherine
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Dogan, Safak
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Dawes, Helen
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Cooper, Glen
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Weightman, Andrew
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Haron, Athia, Shuang, Jiawei, Lin, Chaofan, Mansoubi, Maedeh, Shi, Xiyu, Horn, Daniel, Reeves, Neil, Bowling, Frank, Eccles, Andrew, Bradbury, Katherine, Dogan, Safak, Dawes, Helen, Cooper, Glen and Weightman, Andrew (2025) In-shoe plantar temperature normal and shear stress relationships during gait and rest periods for people living with and without diabetes. Scientific Reports, 15 (1), [8804]. (doi:10.1038/s41598-025-91934-9).

Record type: Article

Abstract

Diabetic foot ulcers (DFUs) are a common complication of diabetes. This study aims to investigate the relationships between in-shoe plantar temperature, normal and shear stress during walking and rest periods for participants with and without diabetes. For this purpose, a novel temperature, normal and shear stress sensing system was developed and embedded in an insole at the hallux, first metatarsal head and calcaneus region. Ten participants living with diabetes with no history of previous ulceration and ten healthy participants were recruited. Participants walked on a treadmill for 15 min and then rested for 20 min wearing the sensing insole. Results showed high correlation (Spearman’s rs ≥ 0.917) between heat energy, total plantar temperature change, during walking and strain energy, cumulative stress squared in all participants. Importantly, between-group comparisons showed indications of thermal regulation differences in participants with and without diabetes, with the first metatarsal head site showing significantly higher temperature at the end of the active period (P = 0.0097) although walking speed and mechanical stress were similar. This research demonstrates for the first time the correlation between strain energy and heat energy in-shoe during gait. Further research is needed to quantify relationships and investigate thermal regulation as a mechanism for DFU formation.

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s41598-025-91934-9 - Version of Record
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Accepted/In Press date: 14 February 2025
Published date: 14 March 2025

Identifiers

Local EPrints ID: 504933
URI: http://eprints.soton.ac.uk/id/eprint/504933
DOI: doi:10.1038/s41598-025-91934-9
ISSN: 2045-2322
PURE UUID: adfbe677-1e91-455a-a5bf-ba47b5089330
ORCID for Katherine Bradbury: ORCID iD orcid.org/0000-0001-5513-7571

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Date deposited: 22 Sep 2025 16:58
Last modified: 23 Sep 2025 01:46

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Contributors

Author: Athia Haron
Author: Jiawei Shuang
Author: Chaofan Lin
Author: Maedeh Mansoubi
Author: Xiyu Shi
Author: Daniel Horn
Author: Neil Reeves
Author: Frank Bowling
Author: Andrew Eccles
Author: Katherine Bradbury ORCID iD
Author: Safak Dogan
Author: Helen Dawes
Author: Glen Cooper
Author: Andrew Weightman

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