Development of a body-worn textile-based strain sensor: application to diabetic foot assessment
Development of a body-worn textile-based strain sensor: application to diabetic foot assessment
Diabetic Foot Ulcers (DFUs) are a significant health and economic burden, potentially leading to limb amputation, with a severe impact on a person’s quality of life. During active movements like gait, the monitoring of shear has been suggested as an important factor for effective prevention of DFUs. It is proposed that, in textiles, strain can be measured as a proxy for shear stress at the skin. This paper presents the conceptualisation and development of a novel strain-sensing approach that can be unobtrusively integrated within sock textiles and worn within the shoe. Working with close clinical and patient engagement, a sensor specification was identified, and 12 load-sensing approaches for the prevention of DFU were evaluated. A lead concept using a conductive adhesive was selected for further development. The method was developed using a Lycra sample, before being translated onto a knitted ‘sock’ substrate. The resultant strain sensor can be integrated within mass-produced textiles fabricated using industrial knitting machines. A case-study was used to demonstrate a proof-of-concept version of the strain sensor, which changes resistance with applied mechanical strain. A range of static and dynamic laboratory testing was used to assess the sensor’s performance, which demonstrated a resolution of 0.013 Ω
across a range of 0–430 Ω and a range of interest of 0–20 Ω. In cyclic testing, the sensor exhibited a cyclic strain threshold of 6% and a sensitivity gradient of 0.3 ± 0.02, with a low dynamic drift of 0.039 to 0.045% of the total range. Overall, this work demonstrates a viable textile-based strain sensor capable of integration within worn knitted structures. It provides a promising first step towards developing a sock-based strain sensor for the prevention of DFU formation.
sensors, shear, diabetic foot ulcer, wearables
Turnbull, Rory P.
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Corser, Jenny
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Orlando, Giorgio
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Venkatraman, Prabhuraj
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Yoldi, Irantzu
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Bradbury, Kathrine
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Reeves, Neil D.
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Culmer, Peter
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26 March 2025
Turnbull, Rory P.
776c7cbb-3a0d-498c-85c6-31fb529a5c42
Corser, Jenny
ff0d0fdf-a612-43ea-9eb5-f9ecb020338f
Orlando, Giorgio
f1166fc5-1d11-4b7e-bca1-9cecea8478af
Venkatraman, Prabhuraj
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Yoldi, Irantzu
0fb751ba-8d54-4a70-8719-764a2cfd4208
Bradbury, Kathrine
87fce0b9-d9c5-42b4-b041-bffeb4430863
Reeves, Neil D.
a0316995-ba24-4372-bc12-75653fb757e8
Culmer, Peter
b3ace9bd-c71b-45e3-953b-acc309da8f8f
Turnbull, Rory P., Corser, Jenny, Orlando, Giorgio, Venkatraman, Prabhuraj, Yoldi, Irantzu, Bradbury, Kathrine, Reeves, Neil D. and Culmer, Peter
(2025)
Development of a body-worn textile-based strain sensor: application to diabetic foot assessment.
Sensors, 25 (7), [2057].
(doi:10.3390/s25072057).
Abstract
Diabetic Foot Ulcers (DFUs) are a significant health and economic burden, potentially leading to limb amputation, with a severe impact on a person’s quality of life. During active movements like gait, the monitoring of shear has been suggested as an important factor for effective prevention of DFUs. It is proposed that, in textiles, strain can be measured as a proxy for shear stress at the skin. This paper presents the conceptualisation and development of a novel strain-sensing approach that can be unobtrusively integrated within sock textiles and worn within the shoe. Working with close clinical and patient engagement, a sensor specification was identified, and 12 load-sensing approaches for the prevention of DFU were evaluated. A lead concept using a conductive adhesive was selected for further development. The method was developed using a Lycra sample, before being translated onto a knitted ‘sock’ substrate. The resultant strain sensor can be integrated within mass-produced textiles fabricated using industrial knitting machines. A case-study was used to demonstrate a proof-of-concept version of the strain sensor, which changes resistance with applied mechanical strain. A range of static and dynamic laboratory testing was used to assess the sensor’s performance, which demonstrated a resolution of 0.013 Ω
across a range of 0–430 Ω and a range of interest of 0–20 Ω. In cyclic testing, the sensor exhibited a cyclic strain threshold of 6% and a sensitivity gradient of 0.3 ± 0.02, with a low dynamic drift of 0.039 to 0.045% of the total range. Overall, this work demonstrates a viable textile-based strain sensor capable of integration within worn knitted structures. It provides a promising first step towards developing a sock-based strain sensor for the prevention of DFU formation.
Text
sensors-25-02057-v2
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Accepted/In Press date: 18 March 2025
Published date: 26 March 2025
Keywords:
sensors, shear, diabetic foot ulcer, wearables
Identifiers
Local EPrints ID: 500482
URI: http://eprints.soton.ac.uk/id/eprint/500482
ISSN: 1424-8220
PURE UUID: 580ec0e7-6b09-40f5-bdfe-708b6258a0d7
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Date deposited: 01 May 2025 16:39
Last modified: 28 Aug 2025 02:20
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Contributors
Author:
Rory P. Turnbull
Author:
Jenny Corser
Author:
Giorgio Orlando
Author:
Prabhuraj Venkatraman
Author:
Irantzu Yoldi
Author:
Neil D. Reeves
Author:
Peter Culmer
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