A stretchy patch that, applied directly to the skin, wicks up sweat and assesses how much cortisol a person is producing has been developed by the researchers at Stanford University. This offers a novel approach for the early detection of various diseases and evaluation of sports performance. Clinical tests that measure cortisol provide an objective gauge of emotional or physical stress in research subjects and can help doctors tell if a patient’s adrenal or pituitary gland is working properly. If the prototype version of the wearable device becomes a reality, it could allow people with an imbalance to monitor their own levels at home. A fast-working test like this could also reveal the emotional state of young - even non-verbal - children, who might not otherwise be able to communicate that they feel stress.

The researchers built his stretchy, rectangular sensor around a membrane that specifically binds only to cortisol. Stuck to the skin, it sucks in sweat passively through holes in the bottom of the patch. The sweat pools in a reservoir, which is topped by the cortisol-sensitive membrane. Charged ions like sodium or potassium, also found in sweat, pass through the membrane unless they are blocked by cortisol. It’s those backed up charged ions the sensor detects, not the cortisol itself. On top of all this is a waterproof layer that protects the patch from contamination.

All a user needs to see cortisol levels is to sweat (enough to glisten), apply the patch and connect it to a device for analysis, which gives results in seconds. In the future, the researchers hope the sensor could be part of a fully integrated system. The researchers showed that the device measured up to the gold standard clinical test in the lab, then gave it a real world test. They strapped on his running shoes and recruited two volunteers, who all ran for 20 minutes with the patches on their arms.

So far, the sensor appears to work as designed. But the researchers want to make it more reliable and accurate, and also make sure it is reusable. The prototype seems to work multiple times so long as it is not saturated with sweat. In the future, they may try the cortisol sensor on saliva, which would avoid patients needing to sweat.

The researchers, hoping to take advantage of their generalizable design, are also figuring out what biomarker they may want to study next. Eventually, the goal would be to have a device that measures several biomarkers at once, which would give a clearer and more individualized picture of what is going on in a person’s body.