Longer-lasting wearables set to transform health monitoring

The Phantom, a wireless wearable for tactile feedback, is seen during CES Unveiled, a pre-show for this week’s Consumer Electronics Show in Las Vegas – Copyright AFP Brendan Smialowski

Wearable technologies are revolutionizing health care, but design limitations in adhesive-based personal monitors have arguably kept them from meeting their full potential.

A new University of Arizona study, published in Nature Communications, describes a longer-lasting, 3D-printed, adhesive-free wearable capable of providing a more comprehensive picture of a user’s physiological state.

The device, which measures water vapor and skin emissions of gases, continuously tracks and logs physiological data associated with dehydration, metabolic shifts and stress levels.

“Wearable health monitoring traditionally depends on sensors that directly attach to the skin, but the skin itself constantly renews,” said one of the lead researchers, Philipp Gutruf, an associate professor of biomedical engineering.

“This limits how long you can collect reliable data. With our sensor that tracks gaseous emissions from the skin, we overcome this constraint entirely,” Gutruf adds.

Skin shedding weakens adhesives and clogs sensors, so wearables applied with adhesives must be reapplied every few days. Researchers in the Gutruf Lab at the U of A designed a device, worn on the forearm, that resembles a small 3D-printed cuff and can be worn continuously. The device sensors constantly measure gases emitted by the user, comparing their concentrations against normal outside air.

Unlike adhesive-based sports science and health monitoring wearables, which historically only record snapshots, the device developed by Gutruf and his colleagues delivers continuous, real-time data viewable on a smartphone or computer via secure Bluetooth.

“This opens an entirely new space of biomarkers,” continues Gutruf. “For example, you can capture the metabolic signatures of exercise or stress without interrupting the subject’s normal routine. Previously, measurements of this kind required an entire room of equipment.”

Practical applications, proven results

With a device such as this, athletes can monitor hydration and exertion during training. The wearable could also record mental health and chronic disease symptoms to aid in prevention and treatment. In fact, tracking and monitoring physiological signs of stress in gas emissions can even help identify early metabolic disturbances, Gutruf said.

The design is stable even when exposed to everyday movement and environmental changes.

The researchers plan to expand the range of detectable biomarkers and integrate advanced data analytics to provide personalized health insights over even longer periods.