Your watch might be able to tell you it’s time to call in sick. Researchers supported by the National Institutes of Health have revealed the ability of wearable biosensors, similar to the Apple Watch or Fitbit, to detect physiological changes that may indicate illness, even before symptoms appear. The findings, published Jan. 12, 2017, in PLoS Biology, may open the door to new ways to manage and monitor health, especially for those with limited access to doctors or clinics.
Wearable biosensors, like fitness trackers and activity monitors, can now check these parameters regularly. Although many people have started using them for personal use, larger, more comprehensive studies are needed to investigate their potential in healthcare.
“You can’t really make any scientific conclusions from personal data,” said Grace Peng, Ph.D., Director of the National Institute of Biomedical Imaging and Bioengineering (NIBIB) program in Computational Modeling, Simulation, and Analysis. “Here, the authors have taken an enormous of amount of data and made sense out of the entirety in a very systematic way using data science tools and analytical methods.”
The team of researchers, from Stanford University and Veterans Affairs Palo Alto, first followed one man’s results for the two years that he wore seven different devices. Each device measured a variety of parameters, including his level of activity, radiation exposure, and levels of oxygen-bound hemoglobin in his blood, and recorded more than 250,000 measurements each day. Based on its accuracy, ability to measure three key variables—heart rate, skin temperature, and movement—and easily accessible data, they selected a Basis brand device to monitor an additional 43 subjects for an average of five months each.
In the first individual, they assessed how physiological measurements fluctuate over the course of the day, revealing the importance of frequent measurements, as a once-daily reading might not provide the whole picture. Comparing the other participants, they noted a wide range of heart rates, indicating the need for personalized analysis. The results also showed that wearable biosensors can provide both frequent measurements and personalized analysis.
Next, they evaluated instances when the readings appeared abnormal. The participant who was monitored for two years had four periods in which his heart rate and skin temperature were unusually high. During three of those periods, he reported clinical symptoms like congestion; following one of the outlying periods, he was diagnosed with Lyme disease. “The wearable was actually able to predict Lyme disease even before the patient had any symptoms,” said Peng.
Three other participants became sick at some point during the monitoring period. In each instance, the participant’s heart rate spiked, compared to his or her individual average. Using their data, the team created an algorithm, called Change-of-Heart, to identify possible illness based on when heart rate deviated from its normal range.
“It was incredibly exciting that we could actually detect illness using just a consumer wearable device,” said Jessilyn Dunn, Ph.D., a postdoctoral research fellow at Stanford University and one of the lead authors on the paper. To prevent false alarms, Dunn says they will continue to refine the algorithm to identify only true outliers and take into account one’s level of individual variability. She doesn’t envision Change-of-Heart as a diagnostic tool just yet, but rather as a red flag to tell people they may need to examine their stress levels, get more rest, or see a doctor.
The 24/7 monitors might also provide a more representative assessment of general health. “We know that the day that you go into the doctor once a year, it might not be your typical day, so we can get a picture of what that really is,” said Dunn.
Additionally, the trackers can monitor patients in rural or low-income areas that may not have easy access to a doctor. “For those individuals who can’t easily come into a clinic, they’re still under a sort of health surveillance mechanism,” Dunn said. “There’s a really exciting potential for this type of technology to really revolutionize the health care model.”
The research was funded in part by NIH grants, TR001085, EB020405, and DK102556.
Digital Health: Tracking Physiomes and Activity Using Wearable Biosensors Reveals UsefulHealth-Related Information. Li X, Dunn J, Salins D, Zhou G, Zhou W, Schüssler-Fiorenza Rose SM, Perelman D, Colbert E, Runge R, Rego S, Sonecha R, Datta S, McLaughlin T, Snyder MP. PLoS Biol. 2017 Jan 12.
—Teal Burrell, special to NIBIB