A wearable microfluidic system for efficient sweat collection and real-time detection

Sweat is an important biofluid with rich physiological information that can evaluate human health condition. Wearable sweat sensors have received widespread attention in recent years due to the benefits of non-invasive, continuous, and real-time monitoring. Currently, an efficient device integrating...

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Bibliographic Details
Published in:Talanta (Oxford) 2024-07, Vol.274, p.125967-125967, Article 125967
Main Authors: Yin, Yingda, Tan, Zhiguang, Zhu, Wangwang, Pu, Zhihua, Yu, Haixia, Wang, Ridong, Li, Dachao
Format: Article
Language:English
Subjects:
Efficient collection
Real-time detection
Sweat microfluidic system
Wearable device
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Summary:Sweat is an important biofluid with rich physiological information that can evaluate human health condition. Wearable sweat sensors have received widespread attention in recent years due to the benefits of non-invasive, continuous, and real-time monitoring. Currently, an efficient device integrating sweat collection and detection is still needed. Here, a wearable sweat microfluidic system was fabricated for real-time collection and analysis of sweat. The fabricated microfluidic system consisted of four layers, including a skin adhesive layer, a microfluidic layer, an electrode layer, and a capping layer. The sweat collection rate was around 0.79 μL/min, which demonstrated efficient sweat sampling, storage, and refreshing capabilities. Simultaneous detection of multiple sweat biomarkers was achieved with a screen-printed sweat sensing array, which could realize high-precision detection of Na+, K+, and glucose. Moreover, the sensing array also showed good repeatability and stability, with a relative standard deviation of sensitivity of less than 5%. Additionally, human testing was conducted to demonstrate that this microfluidic system can continuously monitor Na+, K+, and glucose in subjects' sweat during exercise, which showed high potential for non-invasive human health monitoring. [Display omitted] •A wearable microfluidic system is fabricated for efficient sweat collection and real-time detection.•The microfluidic system is simulated to optimize the microfluidic channel size, achieving an efficient sweat collection rate.•A sweat sensing array is designed and fabricated to achieve highly sensitive detection of multiple sweat biomarkers.•The combined detection of multiple sweat biomarkers lays the foundation for the diagnosis of certain human diseases.
ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2024.125967