Wingcopter drones speed up blood sample transport in Germany
26 kilometers (16 miles) between Greifswald and Wolgast – that is the distance over which Wingcopter drones recently transported blood samples in the Northeast German federal state of Mecklenburg-West Pomerania. The flights were carried out by Greifswald University Medical Center in cooperation with DRF Luftrettung and Wingcopter as part of the MV|LIFE|DRONE Challenge project of the hospital’s Department of Anesthesiology. The project is funded by the German Federal Ministry of Health and the Ministry of Energy, Infrastructure and Digitalization of Mecklenburg-West Pomerania and intends to improve structures of regional emergency care by integrating Unmanned Aircraft Systems (UAS) into the rescue chain and emergency medical transports.
26 kilometer BVLOS
The flights beyond the pilots’ visual line of sight (BVLOS) carried a pneumatic tube including 250 grams of blood samples. The Wingcopter completed the 26-kilometer route in an average of 18 minutes, nearly twice as fast as ground-based transport. The use of Wingcopter drones could thus significantly speed up emergency medical care in rural areas and help save lives. In the event of a blood transfusion being necessary at short notice, for example, blood samples from Wolgast District Hospital must be transported to Greifswald University Hospital for analysis in order to determine the appropriate donor blood.
Ansgar Kadura, co-founder and CSO of Wingcopter, comments: “With this project, we have demonstrated that we can also improve medical care and quality of life in rural areas in Germany. With our new unmanned aerial vehicle, the Wingcopter 198, this can be carried out even more efficiently in the future. We look forward to continued collaboration with the project team at the Department of Anesthesiology as part of the MV|LIFE|DRONE Challenge and beyond.”
Permanent flight connections
The goal of Greifswald University Medical Center is to establish permanent flight connections between the medical center in Greifswald and hospitals in the surrounding area as soon as possible. Drones are also to be used to support first responders on site, for example by quickly transporting medications, transfusions, or emergency medical equipment such as defibrillators to the scene of an accident.
“We are continuing to work towards the goal of shortening long distances in the region for the benefit of our population. Key to this is the integration of new technologies into existing rescue and care systems as part of comprehensive care concepts,” emphasizes Dr. Mina Baumgarten, project manager of the MV|LIFE|DRONE-Challenge project, adding: “The next step on the way to realizing this must be to transfer tests into longer-term use under real-world circumstances; the conditions in the region are ideal for this.”
Wingcopter is a German manufacturer and service provider of eVTOL unmanned aircraft systems (UAS) dedicated to improving and saving the lives of people worldwide through meaningful commercial and humanitarian applications. The startup is focused on optimizing medical supply chains. In the future, Wingcopter will also deliver packages, tools, and spare parts, as well as food and groceries. Thanks to its patented tilt-rotor mechanism, the Wingcopter 198 can take off and land vertically like a multicopter, while flying long distances as efficiently and quickly as a fixed-wing aircraft, even in rain and wind.
In 2020, Wingcopter was named a Technology Pioneer by the World Economic Forum. Wingcopter’s investors include Xplorer Capital, Futury Capital, Hessen Kapital III, and Corecam Capital Partners.
About the MV|LIFE|DRONE Challenge project
The MV|LIFE|DRONE-Challenge (MVLD-Challenge) is a project of the project partners University Medical Center Greifswald and DRF Luftrettung funded by the German Federal Ministry of Health and the Ministry of Energy, Infrastructure and Digitalization of the German state of Mecklenburg-West Pomerania. The goal of the project is to improve structures of regional emergency care by integrating unmanned aerial vehicles (UAS, Unmanned Aerial Systems) into the rescue chain and into medical emergency transports.
MVLD-Challenge takes up preliminary work on prototypical technology solutions and elaborates legal frameworks, deployment concepts and operator models, taking into account climatic and specific regional requirements in Germany. The region of Vorpommern-Greifswald, as the center of research activity, serves as a model region for the reorganization of preclinical emergency care in strategic, sustainable networks.