Teams from the United Network for Organ Sharing, NASA Langley Research Center and LifeNet Health have successfully completed a groundbreaking study transporting human kidneys by drone beyond visual line of sight, marking a major milestone in the future of organ transportation and transplantation.
The June 5 flights highlight the potential for drone technology to support future innovations in organ transportation, with the goal of improving reliability, reducing transit times, and helping save more lives through transplantation.
During the study, research kidneys were biopsied and placed on preservation pumps before and after the flights to assess whether drone transportation affected organ integrity. Temperature, pressure and altitude were monitored throughout the approximately 15-minute flights. Preliminary findings showed no evidence that the flights negatively affected the organs.
“With more than 100,000 people currently waiting for a lifesaving transplant nationwide, innovation in organ transportation is essential,” said UNOS Interim CEO Mark Johnson. “This successful collaboration represents an important step toward making organ transportation safer, faster and more efficient.”
Organ transplantation is one of the most time-sensitive processes in healthcare. Once recovered, organs have only a limited window of viability, making efficient transportation critical to successful transplantation. Delays can impact organ function, patient outcomes, and whether a transplant can occur at all. Transportation innovation, including the exploration of drone technology, could expand access to transplantation for patients on the waitlist or reduce the time to transplant, ultimately improving patient outcomes.
According to national transplant data, another person is added to the U.S. transplant waiting list every eight minutes, while 13 people die each day waiting for an organ that never arrives. More than 3,000 people in Virginia alone are currently waiting for a lifesaving transplant.
The kidneys used in the study were donated for research by a donor family working with LifeNet Health after it was determined the organs would not be transplanted. Through these gifts, the organizations were able to evaluate how drone transportation may support future advances in transplantation logistics and organ preservation.
While transplantation saves lives today, research donation helps save lives tomorrow. Organs and tissues that cannot be used for transplant can still help scientists improve preservation methods, develop new therapies, and explore future innovations in transplantation and patient care.
“Research donation plays a vital role in advancing medicine and transplantation,” said Rony Thomas, President and CEO of LifeNet Health. “While not every organ can be transplanted, many can still contribute to scientific discovery and innovations that may help save countless lives in the future.”
The study also highlights the broader impact of research donation. A single research donation can support multiple scientific studies and discoveries that may improve transplant outcomes and benefit patients for years to come. Many medical advances used in transplantation today were made possible through the generosity of donors and their families.
Research donation occurs only with proper authorization and under strict ethical and regulatory standards. Families receive clear information about the process and can make informed decisions that honor their loved one’s wishes.
UNOS, NASA, and LifeNet Health continue exploring opportunities to further evaluate drone transportation in operational environments, including transporting research organs between hospitals and airports.
