Remote monitoring
In a quality improvement project in the United Kingdom, nurses asked difficult-to-control asthma patients if they understood how to use their corticosteroid/long-acting beta2-agonist (LABA) inhalers and if they were adhering to treatment guidelines.
Those who answered yes to these questions were invited to a 28-day study that involved swapping their steroid/LABA inhalers for a different controller/bronchodilator (fluticasone/salmeterol) with INCA (Inhaler Compliance Assessment), a device that not only tracks adherence but also uses acoustics to gauge inhaler technique.
Among the 23 patients who participated, many had better clinical outcomes after 28 days of INCA monitoring. As Dr. Mosnaim told attendees, “what was amazing is so many of the patients that had been these difficult-to-control asthmatics who would have gone on to oral steroids or perhaps a biologic – lo and behold, you put them on a digital inhaler, and what do you see?” In two-thirds of the patients, “you see FeNo [a test that measures airway inflammation by detecting nitric oxide in exhalations] goes down. You see spirometry improve. You see the asthma control questionnaire improve. You see blood eosinophils go down.”
And in a 2020 randomized trial, Dr. Mosnaim and colleagues recruited 100 adults with uncontrolled asthma who had prescriptions for a daily inhaled corticosteroid and a short-acting beta-agonist (SABA) inhaler. Participants received Propeller sensors for their steroid and SABA inhalers. After a 2-week run-in period to calculate baseline corticosteroid adherence and SABA use for all participants, half the participants were randomly assigned to the control group, which had the app and sensor in silent mode, merely to collect data on medication use – whereas the treatment group received reminders, alerts, and monthly phone calls from providers who gave feedback on adherence and technique.
After 3 months of digital monitoring, patients didn’t use their rescue medication quite as often – as judged by a rise in the percentage of SABA-free days, compared with when they began the study. But the change in SABA-free days relative to baseline was more pronounced in the treatment group (19%) than in the control group (6%).
As seen in the other digital monitoring studies, adherence to daily corticosteroids fell with time, but the drop was milder in treated participants (2%) versus the control group (17%). So in this study, digital monitoring plus mobile app reminders and clinician feedback “prevented against fall in adherence to inhaled steroids over time,” Dr. Mosnaim said.
These results are “very encouraging” and offer “proof of concept that this type of remote monitoring could work,” Thanai Pongdee, MD, an allergist-immunologist with the Mayo Clinic in Rochester, Minn., said in an interview. One limitation was that the study was too short to measure exacerbation rates. A yearlong analysis would be “really fascinating because you’d catch all the seasons of the year – all the pollen seasons, all these things that could exacerbate you. Some people’s asthma can be quite seasonal.”
More important, the clinical utility of digital sensors will depend on how physicians choose to use them. If the doctor puts out a “blanket recommendation for using it but doesn’t ask you about it or doesn’t use the data to inform your care, then I think people just lose engagement and lose excitement over it,” Dr. Ramsey said. But if the health care team “asks you about the data or looks at the data with you or shows you how valuable this can be to your care, then I think that changes things.”
Building these analyses and interactions into the clinic workflow isn’t trivial. “If you have this wealth of data coming in, how are you going to look at it? Are you going to have an individual person assigned to this role? How are you going to respond to alerts?” Dr. Anderson asked.
In addition, because some digital monitors issue alerts when a patient’s asthma is not well controlled, some providers worry about liability if “something bad were to happen if you had that data but didn’t act upon it,” he said. Yet he noted that remote data monitoring is already used routinely in other areas of medicine, such as managing diabetes and heart conditions, “and it’s not like people are getting dinged for that stuff.”
Another issue is cost. Insurance only covers digital monitors in select cases, but it’s a bit of a catch-22. Insurers “don’t want to cover it until they get the data, but you can’t get the data until insurance covers it,” said Dr. Anderson, who added that “this year we finally got CPT reimbursement codes for monitoring devices.”
On the whole, studies of digital medication monitors suggest that better outcomes require “a good partnership between the health care provider and the patient,” Dr. Pongdee said. “It wasn’t like you could just put these things on and expect them to help. You still need that personal relationship to get the optimal results. We can have all this technology, but you still can’t take the people out of it.”
Dr. Mosnaim reported receiving current research grant support from GlaxoSmithKline, Novartis, Sanofi-Regeneron, and Teva; and past research grant support from AstraZeneca, Alk-Abello, and Genentech. She is immediate past president of the AAAAI, and directs the board of directors for the American Board of Allergy and Immunology. Dr. Anderson has served as a consultant for Regeneron, GlaxoSmithKline, and AstraZeneca, and has received research support from Colorado Medicaid. Dr. McCulloch and Dr. Ramsey disclosed no relevant financial relationships. Dr. Pongdee serves as an at-large director on the American Academy of Allergy, Asthma and Immunology board of directors. He receives grant funding from GlaxoSmithKline, and the Mayo Clinic is a trial site for GlaxoSmithKline and AstraZeneca.
A version of this article first appeared on Medscape.com.