A skin-interfaced, miniaturized platform for triggered induction, capture and colorimetric multicomponent analysis of microliter volumes of sweat

Authors
Kim, JooheeOh, SeyongYang, Da SomRugg, LarissaMathur, RadhikaKwak, Sung SooYoo, SeonggwangLi, ShupengKanatzidis, Evangelos E.Lee, GeumbeeYoon, Hong-JoonHuang, YonggangGhaffari, RoozbehMcColley, Susanna A.Rogers, John A.
Issue Date
2024-06
Publisher
Pergamon Press Ltd.
Citation
Biosensors and Bioelectronics, v.253
Abstract
Eccrine sweat can serve as a source of biomarkers for assessing physiological health and nutritional balance, for tracking loss of essential species from the body and for evaluating exposure to hazardous substances. The growing interest in this relatively underexplored class of biofluid arises in part from its non-invasive ability for capture and analysis. The simplest devices, and the only ones that are commercially available, exploit soft microfluidic constructs and colorimetric assays with purely passive modes of operation. The most sophisticated platforms exploit batteries, electronic components and radio hardware for inducing sweat, for electrochemical evaluation of its content and for wireless transmission of this information. The work reported here introduces a technology that combines the advantages of these two different approaches, in the form of a cost-effective, easy-to-use device that supports on-demand evaluation of multiple biomarkers in sweat. This flexible, skin-interfaced, miniaturized system incorporates a hydrogel that contains an approved drug to activate eccrine sweat glands, electrodes and a simple circuit and battery to delivery this drug by iontophoresis through the surface of the skin, microfluidic channels and microreservoirs to capture the induced sweat, and multiple colorimetric assays to evaluate the concentrations of chloride, zinc, and iron. As demonstrated in healthy human participants monitored before and after a meal, such devices yield results that match those of traditional laboratory analysis techniques. Clinical studies that involve cystic fibrosis pediatric patients illustrate the use of this technology as a simple, painless, and reliable alternative to traditional hospital systems for measurements of sweat chloride.
ISSN
0956-5663
URI
https://pubs.kist.re.kr/handle/201004/149517
DOI
10.1016/j.bios.2024.116166
Appears in Collections:
KIST Article > 2024
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