Wearable Microfluidic Sweat Chip for Detection of Sweat Glucose and pH in Long-Distance Running Exercise.
Dong LiuZhenyu LiuShilun FengZehang GaoRan ChenGaozhe CaiShengtai BianPublished in: Biosensors (2023)
Traditional exercise training monitoring is based on invasive blood testing methods. As sweat can reveal abundant blood-related physiological information about health, wearable sweat sensors have received significant research attention and become increasingly popular in the field of exercise training monitoring. However, most of these sensors are used to measure physical indicators such as heart rate, blood pressure, respiration, etc., demanding a versatile sensor that can detect relevant biochemical indicators in body fluids. In this work, we proposed a wearable microfluidic sweat chip combined with smartphone image processing to realize non-invasive in situ analysis of epidermal sweat for sports practitioners. The polydimethylsiloxane (PDMS) based chip was modified with nonionic surfactants to ensure good hydrophilicity for the automatic collection of sweat. Besides, a simple, reliable, and low-cost paper-based sensor was prepared for high-performance sensing of glucose concentration and pH in sweat. Under optimized conditions, this proposed chip can detect glucose with low concentrations from 0.05 mM to 0.40 mM, with a pH range of 4.0 to 6.5 for human sweat. The ability of this microfluidic chip for human sweat analysis was demonstrated by dynamically tracking the changes in glucose concentration and pH in long-distance running subjects.
Keyphrases
- heart rate
- high throughput
- circulating tumor cells
- blood pressure
- low cost
- heart rate variability
- endothelial cells
- blood glucose
- single cell
- skeletal muscle
- physical activity
- healthcare
- mental health
- high intensity
- public health
- working memory
- metabolic syndrome
- genome wide
- climate change
- adipose tissue
- gene expression
- weight loss
- body composition
- neural network
- resistance training
- glycemic control