Conference Coverage

Drone flight launches first-ever insulin drop


 

FROM ENDO 2020

After a year of planning, researchers sent a drone flight off the coast of western Ireland to the Aran Islands, delivering insulin and glucagon and retrieving a blood sample from the first patient to receive insulin successfully by autonomous drone delivery.

The nuts and bolts of arranging the drop and retrieval, which occurred in September 2019, were detailed by Spyridoula Maraka, MD, during a virtual news conference held by the Endocrine Society. The study had been slated for presentaion during ENDO 2020, the society's annual meeting, which was canceled because of the COVID-19 pandemic.

“There are multiple medical drone delivery opportunities that could be lifesaving during sentinel events such as hurricanes, earthquakes, and, of course, pandemics like the one we are currently experiencing,” said Dr. Maraka. “Medications and blood samples are ideal [drone] payload cargo because of their low weight and high value.”

Drones, or unmanned aerial vehicles, are popular for recreational use and in some commercial applications – notably photography – but they are largely untapped as a medical resource, said Dr. Maraka, a collaborator on the project and an endocrinologist at the University of Arkansas for Medical Sciences, Little Rock.

Most of the exploration of drones for medical purposes has been in countries with emerging economies, such as Ghana and Rwanda in Africa, where the unmanned vehicles have been used by the U.S. medical product delivery company Zipline since 2016 to deliver blood.

The autonomous drone delivery of insulin originated in Galway, where the project’s lead investigator, Derek O’Keefe, MD, PhD, is an endocrinologist and professor of medical device technology at the National University of Ireland.

In 2017, Ireland was pummeled by Ophelia, a category 3 hurricane, and a year later by Storm Emma, a winter blizzard, said Dr. Maraka. Those extreme weather events trapped patients in their homes, made streets impassable for days on end, and interrupted the delivery of essential medical supplies, including insulin.

Until then, Ireland’s medical management plan had been passive and rested on the assumption that any weather-related interruptions would be relatively brief and not result in large-scale disruption of care and supply delivery for geographically isolated patients, said Dr. Maraka. But the two extreme and disruptive weather events in relatively quick succession prompted a reassessment of emergency medical management plans.

“We realized that [the prevailing plans were] not good enough,” said Dr. Maraka. “Medicine has a track record of practicing for emergencies before they actually happen,” to make sure that necessary resources are available and protocols in place in case of an emergency. The researchers extrapolated this preparedness mindset to medication delivery and realized that drones could be used both for a medication drop and to bring blood or other samples back from patients for testing.

Ireland’s Aran Islands came to mind as a location that was at risk of being cut off from services, but that was reachable by drone from Galway. “We quickly realized that this project would be very challenging, as no one in the developed world had done drone deliveries beyond the visual line of sight,” said Dr. Maraka, adding that flight operations had significant regulatory constraints.

The cross-disciplinary team that was pulled together to run the Diabetes Drone Mission, as the project was dubbed, included physicians and experts from pharmacies and pharmaceutical companies. To address drone operation specifically, a drone manufacturer, a flight operations firm, and a telecommunications company were also engaged. Drone pilots had to be licensed for beyond-the-visual-line-of-sight (BVLOS) operation, and Irish and European aviation regulators were consulted.

It took a full year to pull the pieces together for the inaugural flight. “One of the first challenges we faced was that we wanted to perform a civilian drone flight covering more than 40 kilometers,” said Dr. Maraka, whereas most drones flights are in the range of 1-10 km (0.6-6.2 miles). This long-range BVLOS flight required the drone to send live camera feed for the flight duration, which necessitated uninterrupted 4G wireless connectivity with satellite telecommunications as backup.

The Wingcopter 178 drone that was eventually chosen has a wingspan of 178 cm (about 70 inches) and can reach a top speed of 130 km/hr (about 81 mph) in fixed-wing mode.

“We had to comply with medication-dispensing legislation ... and we had to comply with medication transportation cold-chain legislation,” said Dr. Maraka. In other words, the insulin could not be loaded and delivered without the usual prescribing, dispensing, and chain-of-custody procedures being met.

In the end, the successful proof-of-concept flight saw the drone covering 43.3 km (26.9 miles) in a 32-minute flight to deliver insulin and glucagon and return a blood sample for hemoglobin A1c testing.

Dr. Maraka said she and her collaborators have an active collaboration with United Parcel Service and drone suppliers to expand into regular medical supply deliveries.

Dr. Maraka reported no conflicts of interest.

The report will be published in a special supplemental issue of the Journal of the Endocrine Society. In addition to a series of news conferences on March 30-31, the society will host ENDO Online 2020 during June 8-22, which will present programming for clinicians and researchers.

SOURCE: Maraka S et al. ENDO 2020, Abstract OR30-04.

This article was updated on 4/17/2020.

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