Antibody-Coated Wearable Organic Electrochemical Transistors for Cortisol Detection in Human Sweat

The dysregulation of the hormone cortisol is related to several pathological states, and its monitoring could help prevent severe stress, fatigue, and mental diseases. While wearable antibody-based biosensors could allow real-time and simple monitoring of antigens, an accurate and low-cost antibody-based cortisol detection through electro-chemical methods is considerably challenging due to its low concentration and the high ionic strength of real biofluids. Here, a label-free and fast sensor for cortisol detection is proposed based on antibody-coated organic electrochemical transistors. The developed devices show unprecedented high sensitivities of 50 mu A/dec for cortisol sensing in high-ionic-strength solutions with effective cortisol detection demonstrated with real human sweat. The sensing mechanism is analyzed through impedance spectroscopy and confirmed with electrical models. Compared to existing methods requiring bulky and expensive laboratory equipment, these wearable devices enable point-of-care cortisol detection in 5 min with direct sweat collection for personalized well-being monitoring.

Automated summary

The dysregulation of cortisol is associated with various pathological states, and monitoring cortisol levels can help prevent severe stress, fatigue, and mental illnesses. Existing methods for cortisol detection face challenges due to its low concentration and the high ionic strength of biofluids. However, a label-free and fast sensor based on antibody-coated organic electrochemical transistors has been developed, offering high sensitivity for cortisol detection. This wearable device enables point-of-care cortisol detection in a short amount of time, allowing personalized well-being monitoring.