Welsh Ambulance Service exploring use of drones to get defibrillators to patients
Drones could make a difference in the way cardiac arrest patients are treated.
The Welsh Ambulance Service is moving closer to using drones to fly defibrillators to patients.
The Trust has partnered with the University of Warwick and industry partners SkyBound to explore whether drone-delivered defibrillators could make a difference to someone in cardiac arrest.
When someone has a cardiac arrest, they either stop breathing entirely or take gasping or infrequent breaths.
As well as immediate cardiopulmonary resuscitation (CPR), a defibrillator can help to restart their heart while waiting for the emergency services to arrive.
Carl Powell, the Welsh Ambulance Service’s Clinical Lead for Acute Care, said: “In a cardiac arrest, every second counts.
“We will always send an ambulance as quickly as possible on lights and sirens, but starting chest compressions and delivering an electric shock with a defibrillator in the meantime could mean the difference between life and death.
“If you’re helping someone in cardiac arrest, it might be difficult to find a defibrillator soon enough to make a real difference, especially in rural areas and especially if you’re the only person there, which is why we’re thinking about better ways to get help to patients.
“In Sweden, ambulance services have used flying drones to deliver defibrillators to people after cardiac arrest.
“Nobody has yet demonstrated how we could do this in the UK – until now.”
More than 6,000 people have a cardiac arrest in the community in Wales every year.
Professor Nigel Rees, the Trust’s Assistant Director of Research and Innovation, said: “Drone-delivered defibrillators might sound like something from a sci-fi movie, but if it’s the quickest way to get a defibrillator to a patient, it’s a fantastic tool in our locker to improve survival rates.
“Lone bystanders aren’t currently instructed by ambulance call handlers to leave a patient to retrieve a nearby defibrillator, as the priority is the chest compressions.
“Delivering a defibrillator directly to them would negate the need to leave the patient, and potentially improve chances of survival.”
Funding from Resuscitation Council UK enabled the Drone-Delivered Defibrillators study – or ‘3D Project’ – to conduct a number of test flights to demonstrate the feasibility of delivering a defibrillator via drone after a 999 call.
Further funding from the National Institute of Health Research and Health and Care Research Wales has enabled the 3D Project to enter its next phase, which is to interview people who have helped someone in a real-life cardiac arrest to understand the difference that a drone-delivered defibrillator could have made.
This summer, researchers will also perform long-distance ‘beyond visual line of sight’ flights to demonstrate how real-time communications between the 999 control room and a drone operation team would work during a cardiac arrest call.
Gemma Alcock, Chief Executive at SkyBound, added: “We are excited to be part of the pioneering effort with the Welsh Ambulance Service and University of Warwick in exploring drone-delivered defibrillators.
“This collaboration represents a significant step forward in leveraging technology to potentially save lives, particularly in remote areas where access to defibrillators can be challenging.
“Our involvement underscores the very reason SkyBound came into fruition, as the initial inspiration came from the experience I gained as a beach lifeguard where I dealt with a life-critical incident.
“This was the foundation of our commitment to harnessing innovative drone solutions to enhance emergency response and ultimately, save lives.”