Electrodermal activity as a proxy for sweat rate monitoring during physical and mental activities

Seung Rok Kim; Yifei Zhan; Noelle Davis; Suhrith Bellamkonda; Liam Gillan; Elina Hakola; Jussi Hiltunen; Ali Javey

doi:10.1038/s41928-025-01365-7

Electrodermal activity as a proxy for sweat rate monitoring during physical and mental activities

Seung Rok Kim, Yifei Zhan, Noelle Davis, Suhrith Bellamkonda, Liam Gillan, Elina Hakola, Jussi Hiltunen, Ali Javey^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

1 Citation (Scopus)

Abstract

Electrodermal activity has long been used for mental activity monitoring by measuring skin conductance at specific locations, such as fingertips, with high sweat gland density. However, electrodermal activity has not been considered useful for physical activity monitoring, where large sweat volumes are generated, resulting in the accumulation of sweat at the skin–electrode interface and, thus, preventing further dynamic response to sweating events. Here we show that electrodermal activity can be used as a proxy for sweat loss measurement under both low and high physical activity levels. We use wearable sweat sensors that consist of water-permeable electrodes and microfluidic-based sweat analysers, and show that skin conductance is proportional to the instantaneous sweat loss. We demonstrate that sweat loss during exercise can be estimated by integrating skin conductance over time, which can be applied to assess the body hydration status of exercisers. From multisite measurements of skin conductance, we show that the wrist, forearm and upper arm are reflective of physical activity levels, whereas the finger is indicative of mental activity. Simultaneous measurement of two different sites selectively decouples mental and physical activities.

Original language	English
Article number	6604
Pages (from-to)	353-361
Number of pages	9
Journal	Nature Electronics
Volume	8
DOIs	https://doi.org/10.1038/s41928-025-01365-7
Publication status	Published - Apr 2025
MoE publication type	A1 Journal article-refereed

Funding

This work was partially supported by Samsung Electronics Company, Ltd, Berkeley Sensors and Actuators Center (BSAC), and the Bakar Fellowship. Part of the sensor fabrication was performed in the Electronic Materials (E-MAT) laboratory funded by the US Department of Energy, Office of Science, Office of Basic Energy Sciences, Materials Sciences and Engineering Division, under contract no. DE-AC02-05Ch11231 (Electronic Materials program). The work at VTT was funded by the Academy of Finland (grant agreement no. 351282). Technical contribution from H. Sääskilahti and J. Rekilä is gratefully acknowledged. N.D. acknowledges support from the National Defense Science & Engineering Graduate (NDSEG) Fellowship Program.

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abstract = "Electrodermal activity has long been used for mental activity monitoring by measuring skin conductance at specific locations, such as fingertips, with high sweat gland density. However, electrodermal activity has not been considered useful for physical activity monitoring, where large sweat volumes are generated, resulting in the accumulation of sweat at the skin–electrode interface and, thus, preventing further dynamic response to sweating events. Here we show that electrodermal activity can be used as a proxy for sweat loss measurement under both low and high physical activity levels. We use wearable sweat sensors that consist of water-permeable electrodes and microfluidic-based sweat analysers, and show that skin conductance is proportional to the instantaneous sweat loss. We demonstrate that sweat loss during exercise can be estimated by integrating skin conductance over time, which can be applied to assess the body hydration status of exercisers. From multisite measurements of skin conductance, we show that the wrist, forearm and upper arm are reflective of physical activity levels, whereas the finger is indicative of mental activity. Simultaneous measurement of two different sites selectively decouples mental and physical activities.",

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AU - Gillan, Liam

AU - Hakola, Elina

AU - Hiltunen, Jussi

AU - Javey, Ali

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Electrodermal activity as a proxy for sweat rate monitoring during physical and mental activities

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