2020
DOI: 10.1126/sciadv.abe3929
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Skin-interfaced microfluidic system with personalized sweating rate and sweat chloride analytics for sports science applications

Abstract: Advanced capabilities in noninvasive, in situ monitoring of sweating rate and sweat electrolyte losses could enable real-time personalized fluid-electrolyte intake recommendations. Established sweat analysis techniques using absorbent patches require post-collection harvesting and benchtop analysis of sweat and are thus impractical for ambulatory use. Here, we introduce a skin-interfaced wearable microfluidic device and smartphone image processing platform that enable analysis of regional sweating rate and swe… Show more

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Cited by 146 publications
(98 citation statements)
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“…In this process, a qualitative result might be simply obtained by the naked eye, and a quantitative result would require volumetric labels marked in devices [ 176 ] or a secondary detection device (e.g., smartphone). [ 177 ] Moreover, colorimetric measurement of sweat loss does not require rigid electronic units for signal transduction; therefore, the overall device structure can be designed to be softer than other microfluidics‐based SLMDs. As such, many researchers have applied colorimetry to wearable microfluidics to measure sweat loss.…”
Section: Advances Of Wearable Sweat Loss Measuring Devicesmentioning
confidence: 99%
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“…In this process, a qualitative result might be simply obtained by the naked eye, and a quantitative result would require volumetric labels marked in devices [ 176 ] or a secondary detection device (e.g., smartphone). [ 177 ] Moreover, colorimetric measurement of sweat loss does not require rigid electronic units for signal transduction; therefore, the overall device structure can be designed to be softer than other microfluidics‐based SLMDs. As such, many researchers have applied colorimetry to wearable microfluidics to measure sweat loss.…”
Section: Advances Of Wearable Sweat Loss Measuring Devicesmentioning
confidence: 99%
“…In addition, this class of SLMDs does not require careful control and calibration of ambient conditions for accurate readings, such as lighting conditions, which have an inevitable effect on colorimetry. [ 176 , 177 , 178 , 187 ] Although the above capability is critical for continuous and accurate measurement of sweat loss, there are trade‐offs in power consumption, production complexity, device footprint, and flexibility. [ 188 ] Generally, the transduction electrical signal used in microfluidics‐based SLMDs includes conductivity (resistance), admittance (impedance), and capacitance.…”
Section: Advances Of Wearable Sweat Loss Measuring Devicesmentioning
confidence: 99%
“…Reprinted with permission from [ 25 ] for panel ( a ). Reprinted with permission from [ 24 ], Copyright 2020 American Association for the Advancement of Science for panel ( b ).…”
Section: Figurementioning
confidence: 99%
“…The device components are shown in Figure 2 b. It provides a colorimetric feedback measurement of sweat rate, fluid loss, and sodium loss in real time [ 24 ].…”
Section: Introductionmentioning
confidence: 99%
“…Having access to real-time biodata monitoring (e.g., core temperature [9] or sweat [10]) during competition raises the conundrum related to the potential decision to withdraw athlete/s from competition on medical grounds. For example, should the medical race director or/an athlete support team withdraw a marathon runner showing signs of EHS (i.e., very high core temperature and an asymmetrical gait) at the final stages of a race or let the athlete attempt to finish potentially causing the athlete life threatening health issues?…”
Section: Potential Ethical Issues With Athletes Biodata Recording During Competitionmentioning
confidence: 99%