Battery-free and AI-enabled multiplexed sensor patches for wound monitoring
Wound healing is a dynamic process with multiple phases. Rapid profiling and quantitative characterization of inflammation and infection remain challenging. We report a paper-like battery-free in situ AI-enabled multiplexed (PETAL) sensor for holistic wound assessment by leveraging deep learning alg...
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2023
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sg-ntu-dr.10356-1716522023-11-05T15:39:45Z Battery-free and AI-enabled multiplexed sensor patches for wound monitoring Zheng, Xin Ting Yang, Zijie Sutarlie, Laura Thangaveloo, Moogaambikai Yu, Yong Salleh, Nur Asinah Binte Mohamed Chin, Jiah Shin Xiong, Ze Becker, David Lawrence Loh, Xian Jun Tee, Benjamin C. K. Su, Xiaodi Lee Kong Chian School of Medicine (LKCMedicine) A*Star Skin Research Laboratory Science::Medicine Uric-acid Infection Wound healing is a dynamic process with multiple phases. Rapid profiling and quantitative characterization of inflammation and infection remain challenging. We report a paper-like battery-free in situ AI-enabled multiplexed (PETAL) sensor for holistic wound assessment by leveraging deep learning algorithms. This sensor consists of a wax-printed paper panel with five colorimetric sensors for temperature, pH, trimethylamine, uric acid, and moisture. Sensor images captured by a mobile phone were analyzed by neural network-based machine learning algorithms to determine healing status. For ex situ detection via exudates collected from rat perturbed wounds and burn wounds, the PETAL sensor can classify healing versus nonhealing status with an accuracy as high as 97%. With the sensor patches attached on rat burn wound models, in situ monitoring of wound progression or severity is demonstrated. This PETAL sensor allows early warning of adverse events, which could trigger immediate clinical intervention to facilitate wound care management. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) Published version X.T.Z., Z.Y., L.S., Y.Y., N.A.B.M.S., Z.X., X.J.L., B.C.K.T., and X.S. acknowledge Additive Manufacturing of Biological Materials (AMBM) program (A18A8b0059). B.C.K.T. acknowledges support from the National Research Foundation (NRF), Prime Minister's office, Singapore, under its NRF Fellowship (NRFF-2017-08) and iHealthtech grant. M.T., J.S.C., and D.L.B. acknowledge Industry Alignment Fund-Pre-Positioning Programme (IAF-PP) grant number H17/01/a0/0C9 as part of the Wound Care Innovation for the Tropics (WCIT) Programme, IAF-PP grant number H1701a0004, and The Skin Research Institute of Singapore, Phase 2: SRIS@Novena. Z.Y. acknowledges support from NUS Research Scholarship. 2023-11-02T04:20:07Z 2023-11-02T04:20:07Z 2023 Journal Article Zheng, X. T., Yang, Z., Sutarlie, L., Thangaveloo, M., Yu, Y., Salleh, N. A. B. M., Chin, J. S., Xiong, Z., Becker, D. L., Loh, X. J., Tee, B. C. K. & Su, X. (2023). Battery-free and AI-enabled multiplexed sensor patches for wound monitoring. Science Advances, 9(24), eadg6670-. https://dx.doi.org/10.1126/sciadv.adg6670 2375-2548 https://hdl.handle.net/10356/171652 10.1126/sciadv.adg6670 37327328 2-s2.0-85163273973 24 9 eadg6670 en H17/01/a0/0C9 H1701a0004 Science Advances © 2023 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). application/pdf |
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Science::Medicine Uric-acid Infection |
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Science::Medicine Uric-acid Infection Zheng, Xin Ting Yang, Zijie Sutarlie, Laura Thangaveloo, Moogaambikai Yu, Yong Salleh, Nur Asinah Binte Mohamed Chin, Jiah Shin Xiong, Ze Becker, David Lawrence Loh, Xian Jun Tee, Benjamin C. K. Su, Xiaodi Battery-free and AI-enabled multiplexed sensor patches for wound monitoring |
| description |
Wound healing is a dynamic process with multiple phases. Rapid profiling and quantitative characterization of inflammation and infection remain challenging. We report a paper-like battery-free in situ AI-enabled multiplexed (PETAL) sensor for holistic wound assessment by leveraging deep learning algorithms. This sensor consists of a wax-printed paper panel with five colorimetric sensors for temperature, pH, trimethylamine, uric acid, and moisture. Sensor images captured by a mobile phone were analyzed by neural network-based machine learning algorithms to determine healing status. For ex situ detection via exudates collected from rat perturbed wounds and burn wounds, the PETAL sensor can classify healing versus nonhealing status with an accuracy as high as 97%. With the sensor patches attached on rat burn wound models, in situ monitoring of wound progression or severity is demonstrated. This PETAL sensor allows early warning of adverse events, which could trigger immediate clinical intervention to facilitate wound care management. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Zheng, Xin Ting Yang, Zijie Sutarlie, Laura Thangaveloo, Moogaambikai Yu, Yong Salleh, Nur Asinah Binte Mohamed Chin, Jiah Shin Xiong, Ze Becker, David Lawrence Loh, Xian Jun Tee, Benjamin C. K. Su, Xiaodi |
| format |
Article |
| author |
Zheng, Xin Ting Yang, Zijie Sutarlie, Laura Thangaveloo, Moogaambikai Yu, Yong Salleh, Nur Asinah Binte Mohamed Chin, Jiah Shin Xiong, Ze Becker, David Lawrence Loh, Xian Jun Tee, Benjamin C. K. Su, Xiaodi |
| author_sort |
Zheng, Xin Ting |
| title |
Battery-free and AI-enabled multiplexed sensor patches for wound monitoring |
| title_short |
Battery-free and AI-enabled multiplexed sensor patches for wound monitoring |
| title_full |
Battery-free and AI-enabled multiplexed sensor patches for wound monitoring |
| title_fullStr |
Battery-free and AI-enabled multiplexed sensor patches for wound monitoring |
| title_full_unstemmed |
Battery-free and AI-enabled multiplexed sensor patches for wound monitoring |
| title_sort |
battery-free and ai-enabled multiplexed sensor patches for wound monitoring |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171652 |
| _version_ |
1783955585732968448 |