Drone delivery of goods, including medical laboratory specimens, gains popularity around the world and FAA licensing in the US
In April, Dark Daily’s sister publication The Dark Report was first to report WakeMed Health and Hospitals’ use of a quadcopter drone to deliver patients’ medical laboratory specimens. The drone flew roundtrip between a complex of physicians’ offices on WakeMed’s Raleigh, N.C. campus and the central clinical laboratory.
The April flight was the first time a drone transport of medical
laboratory specimens in the US generated revenue.
Google Drone Delivery?
Not to be outdone, Alphabet (NASDAQ:GOOG), Google’s parent company, appears to be getting in on the trend. In April, the FAA issued an Air Carrier Certification to Wing Aviation LLC, an air delivery developer and subsidiary of Alphabet. Wing has recently launched a drone delivery service in Canberra, Australia and is testing a similar drone delivery service in the US.
“Our service allows customers to order a range of items such as fresh food, hot coffee, or over-the-counter chemist items on our mobile app, and have them delivered directly to their homes by drone in minutes,” Wing stated in a press release.
The photo above shows a Virginia family receiving breakfast delivered by a Wing drone, part of an FAA validation flight. (Photo copyright: Wing Aviation.)
The FAA’s Air Carrier Certification allows Wing to deliver
goods from local businesses to private homes in the US. Their vertical take-off
drones weigh about 11 pounds, are equipped with a hover propeller to reduce
noise, and have wings that allow the devices to fly further and faster while using
less energy.
The FAA certification restricts drone deliveries to daylight
hours only with no flying in the rain. The devices are allowed to fly over
people but cannot hover above them, nor can they carry any hazardous
materials.
The company plans to launch a trial delivery service later
this year in the Blacksburg and Christiansburg areas of Southwest Virginia.
Wing hopes to add other markets to its drone delivery service in the
future.
“This is an important step forward for the safe testing and integration of drones into our economy. Safety continues to be our number one priority as this technology continues to develop and realize its full potential,” said U.S. Secretary of Transportation, Elaine L. Chao, in a press release.
Wing Drones Deliver Over Australia Too!
Wing has been testing its drone delivery service in
Australia since 2014. Over the past 18 months, Wing has flown over 70,000 test
flights and made more than 3,000 successful deliveries—including food, small
household items, and over-the-counter drug store items—as part of the Australia
project.
Unmanned aerial vehicles (UAVs, but commonly called drones) continue to gain in popularity around the world. As more drones appear in the sky, more practical functions are being discovered for them, including medical uses.
According to an article penned by Jeremy Tucker, DO, for Drones in Healthcare, numerous potential medical uses exist for drones. In addition to transport and delivery services, they may also be helpful in search and rescue missions and providing medical care and telemedicine services. Tucker is Executive Director for Patient Safety Solutions at US Acute Care Solutions.
“Drones are going to decrease the reliance on human beings
that provide care and decrease the cost of assisting people,” he predicted.
“Being able to cross long distances at faster speeds to deliver blood products
and lab samples also is a huge benefit. Now transporting blood products between
hospitals, for example, involves vehicles on the ground that are prone to
accidents and delays. Drones can help decrease those incidents.”
Prior to using drones for clinical laboratory specimen
deliveries, WakeMed relied on courier cars and trucks to transport specimens
within the campus. The ground delivery service could take up to an hour to
complete. By comparison, drones can make the same delivery in minutes, ensuring
lab specimens remain viable, and getting test results to patients faster.
Drone Delivery Around the World!
Dark Daily previously covered the use of drones to deliver laboratory specimens in Switzerland and laboratory supplies and blood products in Rwanda. And in 2017, Dark Daily reported that a team of researchers from Johns Hopkins University had successfully flown a drone carrying lab specimens more than 161 miles across the Arizona desert.
Might we soon see a Google drone delivery service for
clinical laboratory specimens as well?
The utilization of drones represents another market trend
that is creating opportunities for clinical laboratories. Using drones to
transport lab specimens could be a potential source of revenue and presents
labs with a pathway for providing value-added, timely service to healthcare
networks.
Demonstration project to move lab specimens by drone was successfully conducted in this alpine nation by Swiss Post and an eight-hospital health system
Delivering clinical laboratory specimens from point A to point B while maintaining the quality and integrity of critical samples is an ongoing issue for medical laboratories and pathology groups worldwide. This is especially true in countries prone to long winters and large amounts of snow. Ground transportation in those areas often experience delays, which can prevent hospitals from receiving needed test results and progressing with treatments that could save lives.
Switzerland is now taking the lead in using drones to transport medical laboratory specimens. In what is believed to be a global first, Ticino EOC, an eight-hospital medical group in Lugano, Switzerland, partnered with Swiss Post (Switzerland’s postal service) and transportation technology manufacturer Matternet of Menlo Park, Calif., to successfully transported laboratory samples between two of Ticino EOC’s hospitals by air using unmanned aerial vehicles (UAVs), commonly called drones. The samples arrived in good conditions after sailing high above blocked roadways. This demonstration project showed that drones can be used to safely deliver much needed lab specimens in both urban and remote rural medical settings.
Drones Present Opportunities for Medical Providers
The Ticino EOC group consists of eight hospital locations:
Lugano Regional Hospital;
Three locations of the Regional Hospital of Bellinzona and Valli (Bellinzona, Faido and Acquarossa);
Mendrisio Regional Hospital;
Locarno Regional Hospital;
Novation Rehabilitation Clinic; and
Oncological Institute of Italian Switzerland.
Matternet’s M2 drone is a quadcopter that travels up to 12 miles on a single battery charge. At just over 2.5 feet in diameter, the M2 can transport parcels up to 4.4 pounds. It cruises at about 22 miles/hour at an altitude of approximately164 to 328 feet above the ground.
According to Matternet’s website, the M2 is “engineered with encrypted communications, a parachute, precision landing, and a host of other safety features” and is “designed to be safe around people and infrastructure.”
Matternet received certification from the Swiss Federal Office for Civil Aviation (FOCA) to fly the drones at any time of the day. FOCA, along with Swiss Post, handle any regulatory issues involved in transporting human blood tissue and other medical laboratory specimens by drone and over public spaces.
“This is a big milestone for us. It means we can operate our technology throughout Switzerland. This will open a big opportunity in medical and e-commerce,” stated Andreas Raptopoulos, Matternet’s cofounder and CEO, in a TechCrunch article.
Matternet’s M2 drone (above) has been used to deliver biological samples between two hospitals in the town of Lugano, Switzerland. (Photo copyrights: Matternet/Swiss Post.)
An additional safety certification is still needed before Swiss Post adds medical drone deliveries to their official services. The packaging that will contain blood samples or any other biohazard materials still requires approval. Swiss Post hopes to be using the drone service regularly for the transportation of lab samples by 2018.
Each drone can be launched using a smartphone application. The launching and landing sites transmit an infrared signal that the drone homes in on. It then delivers the specimens to their predetermined destinations. In the event of an in-flight failure, the drone discharges a parachute and lands.
Delivery by UAV Not New to Healthcare
This is not the first venture to use drones in the field of healthcare. Zipline, a logistics company based in Silicon Valley, is working with the Rwandan government to deliver blood supplies to rural clinics by drone. The company’s website states that, as of May 2017, they have completed over 350 deliveries of blood products to hospitals in Rwanda.
An article appearing in the scientific journal PLOS ONE, highlighted how important drones can be in serving people in rural and economically impoverished areas. Drones can provide healthcare workers with fast access to lab specimens for diagnosis and treatment in areas where roads are impassable or do not exist.
Researchers for that study proved that the movement of the drones does not have any effect on blood samples, which is a crucial element in transporting medical laboratory specimens.
“Such movements could have destroyed blood cells or prompted blood to coagulate and I thought all kinds of blood tests might be affected. But our study shows they weren’t, so that was cool,” Amukele stated.
Pathologist Timothy Amukele, MD, PhD (above left), teamed with engineers at Johns Hopkins to develop a drone courier system capable of transporting blood to clinical laboratories. (Photo copyright: Johns Hopkins Medicine.)
For the study, Amukele and his team collected blood samples from 56 healthy volunteers and drove the samples to a drone launching field. Half of the samples were then driven to a clinical laboratory for processing and the other half were placed on the drones for flights lasting from six to 38 minutes.
Comparison of Clinical Lab Specimens Transported by Ground and by Drone
Both the flown and the non-flown samples underwent 33 common medical laboratory tests. The test results showed almost no difference between the two groups of samples. A test for carbon dioxide was the only one that generated different results, but the team did not know if that was due to the movement of the drones or the fact that the samples sat for up to eight hours before being tested.
Amukele is taking part in a collaboration between Johns Hopkins and Makerere University in Uganda. He noted that they would like to perform a study in a more remote location, possibly in Africa, where clinical laboratories can sometimes be more than 60-miles from clinics.
“A drone could go 100 km [approximately 62 miles] in 40 minutes,” noted Amukele in the Johns Hopkins news release. “They’re less expensive than motorcycles, are not subject to traffic delays, and the technology already exists for the drone to be programmed to ‘home’ to certain GPS coordinates, like a carrier pigeon.”
Opportunities for Clinical Laboratories
Use of drones is subject to each country’s laws and regulations. In the US, drone use is regulated by guidelines established by the Federal Aviation Administration (FAA). In some cases, the drone must be registered with the FAA and the operator must have a remote pilot certificate to legally fly a drone.
These projects highlight the critical need for cost-effective, safe, dependable transportation of biological materials in a timely manner. For pathologists and clinical laboratories, drones could prove to be another opportunity to provide high-quality, value- added services to healthcare consumers and other medical professionals.
