WCU College of Osteopathic Medicine launches new ambulance drones
William Carey University College of Osteopathic Medicine students demonstrated how telemedical kits delivered by disaster drones could be used to assist victims and rescue personnel during a simulated mass casualty event on Dec. 6 at John Bell Williams Airport in Bolton. The development of the disaster drones is a joint project with the unmanned aerial systems program at Hinds Community College. The technology debuted before an audience including representatives from Homeland Security, federal law enforcement agencies, and the United Nations.
The Telemedical Drone project, known as HiRO (Health Integrated Rescue Operations), was developed by Italo Subbarao, DO, senior associate dean at WCUCOM, and Guy Paul Cooper Jr., a fourth-year medical student at WCUCOM.
The concept arose when the two studied the medical response to the devastating EF-4 tornado that struck Hattiesburg in February 2013. In the past two years, they’ve developed multiple prototypes to support rural and wilderness medical emergencies, including the two newest iterations: ambulance drones designed to support victims and rescue personnel during mass shootings, bombings, or other terrorist attacks.
Two new telemedical packages were deployed during the demonstration, one for a severely injured victim and the other for a mass casualty setup capable of treating up to 100 people with significant to minor injuries. Both kits incorporate Homeland Security recommendations provided through the “Stop the Bleed” initiative.
“The two highly advanced mobile telemedical kits provide immediate and secure access to a provider on the other end of the screen. The package was designed for use in the chaos and confusion where guidance must be simple, direct, and user friendly,” said student doctor Cooper. “We feel that the features in these kits empower the provider and bystander to save lives.”
When the critical care kit opens, a physician appears on video and can direct treatment. The kit includes Google Glass, which allow the wearer to be hands free and to move away from the drone while maintaining audio and visual contact with the physician.
Experts from Hinds Community College, in collaboration with Subbarao and Cooper, designed and built both disaster drones, which are capable of carrying telemedical packages in adverse conditions.
“These drones have impressive lift and distance capability, and can be outfitted with a variety of sensors, such as infrared, to help locate victims,” said Dennis Lott, director of the unmanned aerial systems program at Hinds Community College. “Working together, we’re able to develop, test, and bring this technology to the field. It is just a matter of time before the drones are universally adopted for emergency and disaster response toolkits.”
Click here to watch a video of a demonstration of the drone being deployed in a mass shooting scenario.