SMU Research Targets Device for Pediatric Asthma Triggers

asthma-graph

By Kenny Ryan
Special Contributor

Two SMU psychology professors working with University of Maryland engineers have been awarded a National Institutes of Health grant that will bring nearly $2 million to their joint project to create a wearable device for pediatric asthma patients that helps avoid asthma triggers.

The asthma device will monitor air quality (including pollen levels and temperature), carbon dioxide levels in the blood, physical activity, breathing, emotional states, and other stimuli to identify each patient’s individual asthma triggers and alert them when conditions are ripe for an attack.

The concept is similar to the glucose monitor that alerts diabetes patients when their blood sugar is low, but it also includes much more complex monitoring of the patients’ environment. The device’s current iteration is a portable unit, but the Maryland team is miniaturizing it so that it can be worn as a vest.

SMU psychology professors Thomas Ritz and Alicia Meuret are teaming with the University of Maryland Center for Advanced Sensor Technology. The SMU allotment of the NIH grant funds is $540,737.

“Most of my early research has been developing a treatment that addresses hyperventilation using portable CO2 measurement devices, and teaching patients who suffer from
panic disorders to normalize their CO2 levels and stop hyperventilating,” Meuret said. “The colleagues at University of Maryland contacted me because they wanted to use one of the refined devices as a therapeutic measure, and the partnership grew from there.”

How patients perceive asthma triggers and how they can better manage them has been Ritz’ major research interest. He said 25-30 percent of patients have asthma symptoms triggered by emotional stimuli, which can be demonstrated by experiments with mood induction.

“That percentage is clinically significant,” Ritz said. “It’s a large endeavor with researchers from across the United States working on it and exchanging experience to develop their projects further.”

While the Maryland team works on the hardware for the project — and other research teams across the country work on the software — Ritz and Meuret are working on the psychology and the clinical testing of the device with patients.

Starting in January, the pair will conduct tests where students wearing the sensors change their breathing systematically or watch mood-inducing stimuli.

Other tests will incorporate adolescent asthma patients’ daily life. This will generate the data that will make the device’s components eventually run smoothly.

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