Traverse City testing shows how drones can reduce transport time and improve reliability
Medical drone delivery is often discussed as a future capability. A recent pilot program in Traverse City, Michigan, suggests it is already delivering practical value. Results from the Munson Healthcare Medical Drone Delivery Pilot Project show that uncrewed aircraft can reliably transport medical laboratory samples within a controlled operational framework, offering a realistic path to improving healthcare logistics in rural regions
The pilot, conducted in May 2025, focused on short-range drone flights between healthcare facilities in Traverse City. Its goal was straightforward. Project partners aimed to evaluate whether drones could safely and consistently move patient lab samples while meeting clinical and regulatory requirements. The answer, based on early data, was largely yes.
Why Rural Healthcare Logistics Matter
Munson Healthcare serves more than 540,000 residents across 29 counties in northern Michigan. Many of those communities are rural and spread across long distances. Today, staff drive more than 90,000 miles each year to move laboratory samples between facilities. Weather, road conditions, and distance can all slow delivery, affecting turnaround times for diagnostic testing.
The drone delivery pilot was designed to address these challenges. By using uncrewed aircraft, the program explored whether samples could be transported faster and with fewer logistical constraints than ground vehicles. Traverse City offered a suitable testing environment due to its existing medical infrastructure, manageable airspace, and state-level support for advanced air mobility research.
Inside the Pilot Program
Phase 1 of the pilot included 67 total flights conducted between May 9 and May 20, 2025. Operations were limited to visual line of sight flights within a one-mile radius of Munson Medical Center, in compliance with FAA Part 107 rules. Three healthcare locations were involved: Munson Medical Center, the Munson Dialysis Center, and Copper Ridge Surgery Center.
The project recorded a 91 percent mission success rate, with 61 successful flights. Most missions flew between Munson Medical Center and the Dialysis Center, a route that allowed frequent operations and data collection on repeat flights. Longer routes to Copper Ridge Surgery Center provided insight into extended operations within visual line of sight limits.
Initial flights used simulated payloads before transitioning to actual patient laboratory samples. This phased approach helped validate handling requirements and operational procedures before introducing clinical materials.
Technology and Performance Results
The pilot used all-electric drones manufactured by Michigan-based blueflite, combined with automated delivery systems developed by DroneUp. The aircraft relied on a winch-based delivery method that allowed precise placement of payloads without landing.
One of the most significant findings involved temperature control. Across monitored flights, payload temperatures averaged 17.3 degrees Celsius. This fell well within acceptable ranges for common laboratory specimens, including blood and metabolic samples. Maintaining stable temperatures is a core requirement for medical logistics, and the results validated the drone platform’s suitability for clinical use.
While most flights were successful, several missions failed due to winch malfunctions, GPS issues, and cellular connectivity interruptions. Project leaders identified these failures as valuable data points that will inform future system improvements.
From Pilot to Scalable Operations
The Traverse City pilot shows that drone-based medical logistics can work under real-world conditions. It also highlights the limitations of visual line of sight operations. Phase 2 of the project, planned for 2026, will focus on beyond visual line of sight flights, a critical step toward scaling operations across larger regions.
The takeaway is clear. Medical drone delivery is no longer just a concept under discussion. In northern Michigan, it is already demonstrating measurable benefits. With continued regulatory progress and operational refinement, similar models could help healthcare systems nationwide improve efficiency, reliability, and patient care.
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Miriam McNabb is the Editor-in-Chief of DRONELIFE and CEO of JobForDrones, a professional drone services marketplace, and a fascinated observer of the emerging drone industry and the regulatory environment for drones. Miriam has penned over 3,000 articles focused on the commercial drone space and is an international speaker and recognized figure in the industry. Â Miriam has a degree from the University of Chicago and over 20 years of experience in high tech sales and marketing for new technologies.
For drone industry consulting or writing, Email Miriam.
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