A wireless and battery-free wound infection sensor based on DNA hydrogel

A wireless and battery-free wound infection sensor based on DNA hydrogel

The confluence of wireless technology and biosensors offers the possibility to detect and manage medical conditions outside of clinical settings. Wound infections represent a major clinical challenge in which timely detection is critical for effective interventions, but this is currently hindered by...

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Main Authors: Xiong, Ze, Achavananthadith, Sippanat, Lian, Sophie, Madden, Leigh Edward, Ong, Zi Xin, Chua, Wisely, Kalidasan, Viveka, Li, Zhipeng, Liu, Zhu, Singh, Priti, Yang, Haitao, Heussler, Sascha P., Kalaiselvi, S. M. P., Breese, Mark B. H., Yao, Haicheng, Gao, Yuji, Sanmugam, Kavitha, Tee, Benjamin C. K., Chen, Po-Yen, Loke, Weiqiang, Lim, Chwee Teck, Chiang, Grace Shu Hui, Tan, Boon Yeow, Li, Hao, Becker, David Laurence, Ho, John S.
Other Authors: Lee Kong Chian School of Medicine (LKCMedicine)
Format: Article
Language:English
Published: 2023
Subjects:
Science::Medicine
Pathogenic Bacterium
Wireless Biosensors
Online Access:https://hdl.handle.net/10356/164376
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Institution: Nanyang Technological University
Language: English
id sg-ntu-dr.10356-164376
record_format dspace
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Medicine
Pathogenic Bacterium
Wireless Biosensors
spellingShingle Science::Medicine
Pathogenic Bacterium
Wireless Biosensors
Xiong, Ze
Achavananthadith, Sippanat
Lian, Sophie
Madden, Leigh Edward
Ong, Zi Xin
Chua, Wisely
Kalidasan, Viveka
Li, Zhipeng
Liu, Zhu
Singh, Priti
Yang, Haitao
Heussler, Sascha P.
Kalaiselvi, S. M. P.
Breese, Mark B. H.
Yao, Haicheng
Gao, Yuji
Sanmugam, Kavitha
Tee, Benjamin C. K.
Chen, Po-Yen
Loke, Weiqiang
Lim, Chwee Teck
Chiang, Grace Shu Hui
Tan, Boon Yeow
Li, Hao
Becker, David Laurence
Ho, John S.
A wireless and battery-free wound infection sensor based on DNA hydrogel
description The confluence of wireless technology and biosensors offers the possibility to detect and manage medical conditions outside of clinical settings. Wound infections represent a major clinical challenge in which timely detection is critical for effective interventions, but this is currently hindered by the lack of a monitoring technology that can interface with wounds, detect pathogenic bacteria, and wirelessly transmit data. Here, we report a flexible, wireless, and battery-free sensor that provides smartphone-based detection of wound infection using a bacteria-responsive DNA hydrogel. The engineered DNA hydrogels respond selectively to deoxyribonucleases associated with pathogenic bacteria through tunable dielectric changes, which can be wirelessly detected using near-field communication. In a mouse acute wound model, we demonstrate that the wireless sensor can detect physiologically relevant amounts of Staphylococcus aureus even before visible manifestation of infection. These results demonstrate strategies for continuous infection monitoring, which may facilitate improved management of surgical or chronic wounds.
author2 Lee Kong Chian School of Medicine (LKCMedicine)
author_facet Lee Kong Chian School of Medicine (LKCMedicine)
Xiong, Ze
Achavananthadith, Sippanat
Lian, Sophie
Madden, Leigh Edward
Ong, Zi Xin
Chua, Wisely
Kalidasan, Viveka
Li, Zhipeng
Liu, Zhu
Singh, Priti
Yang, Haitao
Heussler, Sascha P.
Kalaiselvi, S. M. P.
Breese, Mark B. H.
Yao, Haicheng
Gao, Yuji
Sanmugam, Kavitha
Tee, Benjamin C. K.
Chen, Po-Yen
Loke, Weiqiang
Lim, Chwee Teck
Chiang, Grace Shu Hui
Tan, Boon Yeow
Li, Hao
Becker, David Laurence
Ho, John S.
format Article
author Xiong, Ze
Achavananthadith, Sippanat
Lian, Sophie
Madden, Leigh Edward
Ong, Zi Xin
Chua, Wisely
Kalidasan, Viveka
Li, Zhipeng
Liu, Zhu
Singh, Priti
Yang, Haitao
Heussler, Sascha P.
Kalaiselvi, S. M. P.
Breese, Mark B. H.
Yao, Haicheng
Gao, Yuji
Sanmugam, Kavitha
Tee, Benjamin C. K.
Chen, Po-Yen
Loke, Weiqiang
Lim, Chwee Teck
Chiang, Grace Shu Hui
Tan, Boon Yeow
Li, Hao
Becker, David Laurence
Ho, John S.
author_sort Xiong, Ze
title A wireless and battery-free wound infection sensor based on DNA hydrogel
title_short A wireless and battery-free wound infection sensor based on DNA hydrogel
title_full A wireless and battery-free wound infection sensor based on DNA hydrogel
title_fullStr A wireless and battery-free wound infection sensor based on DNA hydrogel
title_full_unstemmed A wireless and battery-free wound infection sensor based on DNA hydrogel
title_sort wireless and battery-free wound infection sensor based on dna hydrogel
publishDate 2023
url https://hdl.handle.net/10356/164376
_version_ 1759858353727602688
spelling sg-ntu-dr.10356-1643762023-03-05T16:29:26Z A wireless and battery-free wound infection sensor based on DNA hydrogel Xiong, Ze Achavananthadith, Sippanat Lian, Sophie Madden, Leigh Edward Ong, Zi Xin Chua, Wisely Kalidasan, Viveka Li, Zhipeng Liu, Zhu Singh, Priti Yang, Haitao Heussler, Sascha P. Kalaiselvi, S. M. P. Breese, Mark B. H. Yao, Haicheng Gao, Yuji Sanmugam, Kavitha Tee, Benjamin C. K. Chen, Po-Yen Loke, Weiqiang Lim, Chwee Teck Chiang, Grace Shu Hui Tan, Boon Yeow Li, Hao Becker, David Laurence Ho, John S. Lee Kong Chian School of Medicine (LKCMedicine) Interdisciplinary Graduate School (IGS) Skin Research Institute of Singapore Department of Chemistry, NUS Science::Medicine Pathogenic Bacterium Wireless Biosensors The confluence of wireless technology and biosensors offers the possibility to detect and manage medical conditions outside of clinical settings. Wound infections represent a major clinical challenge in which timely detection is critical for effective interventions, but this is currently hindered by the lack of a monitoring technology that can interface with wounds, detect pathogenic bacteria, and wirelessly transmit data. Here, we report a flexible, wireless, and battery-free sensor that provides smartphone-based detection of wound infection using a bacteria-responsive DNA hydrogel. The engineered DNA hydrogels respond selectively to deoxyribonucleases associated with pathogenic bacteria through tunable dielectric changes, which can be wirelessly detected using near-field communication. In a mouse acute wound model, we demonstrate that the wireless sensor can detect physiologically relevant amounts of Staphylococcus aureus even before visible manifestation of infection. These results demonstrate strategies for continuous infection monitoring, which may facilitate improved management of surgical or chronic wounds. Agency for Science, Technology and Research (A*STAR) Ministry of Health (MOH) National Medical Research Council (NMRC) Published version J.S.H. acknowledges support from grants from the National Research Foundation Singapore (NRFF2017-07 and AISG-GC-2019-002), Ministry of Education Singapore (MOE2016-T3-1-004), and Institute for Health Innovation and Technology. D.L.B. acknowledges support from the Agency for Science, Technology and Research (A*STAR) under its Industry Alignment Fund–Pre-Positioning Programme (IAF-PP) grant (H17/01/a0/0C9) as part of the Wound Care Innovation for the Tropics Programme, IAF-PP grant (H17/01/a0/004), and Skin Research Institute of Singapore, Phase 2: SRIS@Novena. H.L. acknowledges support from the Wound Care Innovation for the Tropics Programme, A*STAR IAF-PP grant (H19/01/a0/0GG9), Skin Innovation grant (SIG18005), MOE AcRF Tier 1 grant (R-143-000-B79-114), and Singapore Ministry of Health’s National Medical Research Council OF-IRG (MOH-000612-00). W.L. acknowledges support from MOE AcRF Tier 1 grant (R-221-000-093-133). B.C.K.T. acknowledges support from National University of Singapore Startup Grant (NUS-2017-01) and Agency of Science Technology and Research Singapore (A18A1B0045). H. Yao acknowledges Research Scholarship from NUS Materials Science and Engineering. Y.G. acknowledges support from the EMULSION Programme H18/01/A0/017 (IAF-PP, A*STAR). S.M.P.K. acknowledges support from the National Research Foundation Singapore, under its NRF Large Equipment Grants–Grant Addendum 3: Operations of the Singapore Synchrotron Light Source (SSLS). 2023-01-18T04:48:29Z 2023-01-18T04:48:29Z 2021 Journal Article Xiong, Z., Achavananthadith, S., Lian, S., Madden, L. E., Ong, Z. X., Chua, W., Kalidasan, V., Li, Z., Liu, Z., Singh, P., Yang, H., Heussler, S. P., Kalaiselvi, S. M. P., Breese, M. B. H., Yao, H., Gao, Y., Sanmugam, K., Tee, B. C. K., Chen, P., ...Ho, J. S. (2021). A wireless and battery-free wound infection sensor based on DNA hydrogel. Science Advances, 7(47), eabj1617-. https://dx.doi.org/10.1126/sciadv.abj1617 2375-2548 https://hdl.handle.net/10356/164376 10.1126/sciadv.abj1617 34797719 2-s2.0-85119986449 47 7 eabj1617 en H17/01/a0/0C9 H17/01/a0/004 H19/01/a0/0GG9 R-143-000-B79-114 MOH-000612-00 Science Advances © 2021 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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