固体皮膚バイオマーカーを迅速、連続的、非侵襲的に検出する伸縮可能なウェアラブルセンサーを開発(NUS and A*STAR researchers develop wearable, stretchable sensor for quick, continuous, and non-invasive detection of solid-state skin biomarkers)

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2024-08-19 シンガポール国立大学(NUS)

シンガポール国立大学(NUS)とA*STARの研究者は、新しいセンサーを開発し、皮膚上の固体状のバイオマーカー(SEB)をリアルタイムで連続的に検出できる技術を発表しました。このウェアラブルセンサーは、非侵襲的にコレステロールや乳酸などの健康指標を検出し、慢性疾患の管理やスポーツ医学において有用です。従来の血液検査や尿検査に代わり、患者の在宅での健康モニタリングが可能になり、心臓病などの早期発見に貢献します。

<関連情報>

伸縮可能なイオン-電子二層ハイドロゲルエレクトロニクスが固体表皮バイオマーカーの現場検出を可能にする Stretchable ionic–electronic bilayer hydrogel electronics enable in situ detection of solid-state epidermal biomarkers

Ruth Theresia Arwani,Sherwin Chong Li Tan,Archana Sundarapandi,Wei Peng Goh,Yin Liu,Fong Yew Leong,Weifeng Yang,Xin Ting Zheng,Yong Yu,Changyun Jiang,Yuan Ching Ang,Lingxuan Kong,Siew Lang Teo,Peng Chen,Xinyi Su,Hongying Li,Zhuangjian Liu,Xiaodong Chen,Le Yang & Yuxin Liu
Nature Materials  Published:12 June 2024
DOI:https://doi.org/10.1038/s41563-024-01918-9

固体皮膚バイオマーカーを迅速、連続的、非侵襲的に検出する伸縮可能なウェアラブルセンサーを開発(NUS and A*STAR researchers develop wearable, stretchable sensor for quick, continuous, and non-invasive detection of solid-state skin biomarkers)

Abstract

Continuous and in situ detection of biomarkers in biofluids (for example, sweat) can provide critical health data but is limited by biofluid accessibility. Here we report a sensor design that enables in situ detection of solid-state biomarkers ubiquitously present on human skin. We deploy an ionic–electronic bilayer hydrogel to facilitate the sequential dissolution, diffusion and electrochemical reaction of solid-state analytes. We demonstrate continuous monitoring of water-soluble analytes (for example, solid lactate) and water-insoluble analytes (for example, solid cholesterol) with ultralow detection limits of 0.51 and 0.26 nmol cm-2, respectively. Additionally, the bilayer hydrogel electrochemical interface reduces motion artefacts by a factor of three compared with conventional liquid-sensing electrochemical interfaces. In a clinical study, solid-state epidermal biomarkers measured by our stretchable wearable sensors showed a high correlation with biomarkers in human blood and dynamically correlated with physiological activities. These results present routes to universal platforms for biomarker monitoring without the need for biofluid acquisition.

医療・健康
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