Tiny digital 'tags' improve eye care by tracking every step

Technology that retailers use to make a shopping experience more efficient could also benefit your next eye appointment.

Called radio-frequency identification (or RFID), the tool helps streamline operations by knowing where everything is and where everything goes. It can help a large store maintain a clearer picture of inventory counts, for example.

At the University of Michigan Kellogg Eye Center, RFID serves another purpose: to track and reduce patient wait time and enhance time spent at the doctor’s office.

A partnership between Kellogg Eye and the U-M Center for Healthcare Engineering and Patient Safety (CHEPS) unlocked a whole new realm of potential applications for RFID technology.

“We were trying to understand how to better integrate education into the glaucoma clinic visit,” says Paula Anne Newman-Casey, M.D., an assistant professor of ophthalmology at Michigan Medicine. “And it took on a life of its own.”

RFID uses small tags or chips to transmit a signal to remote scanners. Over the last decade, the tags have gotten cheap enough to attach to everyday items from soup to leggings — and they’ve been used in car ignitions and EZ pass booths for years.

Which is why Kellogg doctors, ophthalmic technicians, medical assistants and more than 2,000 patients in the glaucoma clinic agreed to wear ID tags implanted with an RFID chip.

What resulted was a “smart clinic” with real-time localization of health care providers and continuous capture of patient wait times. Wait time was measured as any period that a patient was alone — and not getting tests or being examined or counseled by a provider.

“Good decision-making depends on good data, and RFID tags enabled us to get up-to-the-second granular data to truly understand how patients and providers move through the clinic,” says Amy Cohn, Ph.D., associate director of CHEPS and a professor of industrial and operations engineering.

Efficiency improves care

Most eye care professionals know that clinic visits are already long. And wait times are a major indicator of whether patients are happy with their health care.

A new patient visit can take two to three hours with multiple tests, such as a visual field test which detects blind spots and other defects that could be signs of eye problems.

Using the RFID data, the smart clinic team at Kellogg is now able to experiment with changes in scheduling, staffing and operations within a simulated model of the clinic and determine with 80 percent accuracy the impact on patient wait times.

Even better, the data may also boost efficiency of clinic visits to include additional education and counseling opportunities.

Among them: one-on-one coaching to improve patients’ medication adherence and discussion about new glaucoma treatments.

As a glaucoma specialist, Newman-Casey knows self-management is a major concern. Glaucoma is a leading cause of irreversible blindness in the United States. Yet, at least half of glaucoma patients do not take the medications that are proven to prevent vision loss.

With support from the National Eye Institute and Research to Prevent Blindness, Newman-Casey is creating a strategic framework to address the issue.

“We hope to schedule patients in a more respectful way that acknowledges the complexity that goes into glaucoma care and recognizes the burden on patients of managing a chronic disease,” says Newman-Casey, who is also refining a web application that helps train medical assistants to motivate and support glaucoma patients.

Through early analysis and schedule changes, the glaucoma clinic has been able to add more patient appointments without increasing patient waits.

Boosting transparency

The RFID tracking technology fulfilled a need not easily achieved with current electronic medical record systems that can tell when appointments start and finish.
RFID can detect where backlogs are happening and when patients are left waiting.

Another smart clinic innovation: a dashboard interface developed by Michigan Medicine’s information technology staff that uses RFID tracking data to indicate how much time clinicians and patients have been in each room.

When in use, the live feed was monitored by an ophthalmic technician. Onscreen, patients were represented by dots that grew bigger as they waited.

Doctors would occasionally be alerted about patients in limbo who needed a friendly reassurance that they’d be seen soon.

The use of RFID has since drawn the attention of the Office of Patient Experience at Michigan Medicine, which could one day use the simulation model across its facilities.

“(The model) is close enough to how our clinic operates that if we want to test new ideas we can do it in this simulated model to discover how it would impact patient volume and patient times before we roll it out,” says Newman-Casey, also a policy researcher at the U-M Institute for Healthcare Policy and Innovation.

For now, it’s helping add value to every moment for Kellogg patients and providers.

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