This week, Danish health drones have flown for the first time from Odense University Hospital (OUH) in Svendborg to the island of Ærø. The drones carried blood and medicine, and the transport time of 40 minutes is much faster than by car and ferry. This ensures faster treatment for patients.
The red drone contains a small box, where medicine and blood samples can be stored
Today, if you live on one of Denmark's smaller islands and have a blood sample taken, the sample must be transported by ferry and car for analysis at the hospital's laboratory. In the future, the distance will be shorter, because now the way has been paved for the blood sample to be sent by drone directly and immediately to the laboratory.
This became the reality on Monday 30th of May, when Danish Minister of Transport, Trine Bramsen, was standing by in Svendborg to send the first Danish health drone off via a radio connection.
After years of planning and testing, the partnership behind the health drones demonstrated the first flights across the water. A route of 50 kilometres, took place at an altitude of 80 meters.
The drone had flown from OUH Svendborg Hospital to Ærø. The first version of the drone brought blood samples from the small island community to the laboratory. In the longer term, the plan is for medicines and equipment to be transported between hospitals, laboratories, medical centers, nursing homes, and home care. In line with the government's new health care reform, the scheme can be extended to smaller islands or areas that are far from a hospital, thus bringing the health service out to the patient.
There is no doubt that with the entry of health drones into the health care system, we are entering a new era, says project manager from the University of Southern Denmark (SDU), Kjeld Jensen.
Danish Minister of Transport, Trine Bramsen, preparing to send the first Danish health drone off via a radio connection.
What are the health drones?
The HealthDrone project will integrate drones into the Danish healthcare system. Behind the project is a partnership consisting of Unifly, OUH, Falck, Holo, Scandinavian Avionics, and SDU. HealthDrone is in the process of developing and testing drones for transporting blood samples and medicine between Ærø, Svendborg, and Odense.
The drones have already completed successful test flights from Ærø to Langeland but will pass a new milestone when the full distance from Svendborg to Ærø is completed. In short: it works!
It is exceptional in a European context that we fly with drones without shutting down the airspace. Together with Naviair, Unifly, and the Danish Transport Authority, we at SDU have developed a method for tracking helicopters and aircraft so that we can maneuver around them. The air traffic control at Naviair can see on their screens when a drone flight is in progress and will act if e.g. a rescue helicopter needs the airspace. We have paved the way for this to be possible, says Kjeld Jensen.
Unifly UTM system used for operating the health drone flights
We can be ready tomorrow!
One of the commercial players in the project is the mobility company Holo, which together with Falck is the operator of the flights. According to the CEO of Holo, Christian Bering Pedersen, the company is in principle ready to offer the service immediately.
With this project, some barriers to drone flying have been removed, which means that we can now offer a transport service via drone for many different purposes. The project has paved the way for freight via drones, says Christian Bering Pedersen, who is also chairman of the steering committee behind the Healthdrone project.
The drones have the potential to ensure faster and better treatment, says Bjarne Dahler-Eriksen, who is the medical director at OUH.
It is a major focus area for us to spare patients - especially the particularly vulnerable - from spending time on transport and waiting time so that they can instead have samples taken at home or near the home. Today we are dependent on the fixed times for car and ferry transport, but the health drones make it possible to get samples analysed in a much shorter time, so in the future, we can ensure correct treatment faster for the benefit of both the health service, but of course first and foremost for patients, he says.
Time is often a crucial factor, and here too drones may play a vital role in the future. Be it in connection with accidents, where rapid access to blood can mean the difference between life and death, but also in connection with infections, where faster responses provide better treatment. Another future option is to deliver medicine directly to the patients so that they do not have to go and pick up expensive special medicine at the hospital.
Facts about HealthDrone
HealthDrone is a three-year innovation project supported by the Innovation Fund. The goal is to develop and test health drones for the transport of patient samples, medicine, and medical equipment between hospital wards, medical centers, and home care.
After several years of thorough experiments and tests with health drones at the UAS Denmark Testcenter at HCA Airport, at OUH, and by flights internally on Ærø, the drones are now ready to do test flights in air corridors between Ærø and Svendborg, and Svendborg and Odense.
Current transports are limited by fixed routes and departures, and ferry services take 75 minutes between Ærø and Svendborg. Therefore, drone transport will contribute significantly to both a faster and not least a more flexible transport solution.
When the health drones are ready, they will improve logistics in the healthcare sector and thus mean faster and better treatment for the patients. The drones will make it possible to do more examinations at the doctor's or at home that previously required visits to the hospital.
Project partners: Unifly, SDU, Falck, Holo, Odense University Hospital, and Scandinavian Avionics.
Total budget: DKK 30,615,297, of which DKK 14,107,438 from the Innovation Fund.
Project period: 2019 - 30 September 2022
For more information please contact Unifly: Irina Rogojina at firstname.lastname@example.org