Doctors and nurses are using computer controlled medical mannequins to practise their responses to medical emergencies. Research into the complex maths and physics of the body has led to sophisticated mathematical models that drive the mannequins` responses, allowing students to experience a real-life drama, with the benefit that no-one is harmed if they get it wrong.
Simulators are a standard part of training programs within the airline industry, where they save lives by allowing flight crews to rehearse their responses to life-threatening events. Speaking today (23 January) at the Institute of Physics Simulation and Modelling Applied to Medicine conference in London, Consultant Medical Physicist and Scientific Director, Dr Mark Tooley will explain how the Bristol Medical Simulation Centre is pioneering innovative training techniques in healthcare.
In the last two years, more than two and a half thousand doctors, nurses and dentists have come to the Centre to gain experience in handling medical emergencies.
"Using the simulator allows healthcare workers to experience `once in a lifetime` crises over and over again," says Tooley.
Pharmaceutical and medical equipment companies also use the centre to train their sales staff. Simulations enable them to have hands-on experience using the product and give them much greater confidence in performing their job.
The simulators, adult and child, are life-sized and `breathe` as well as having a heart beat. They can mimic situations from breathing problems and heart disorders to haemorrhage.
"People can also learn to work as teams, which is important as an effective team response increases the likelihood of a satisfactory outcome," says Tooley. "It is much better to practise in a simulation suite than have to do all your learning in a hectic Accident and Emergency room or operating theatre."
Tooley stresses that the mannequins only work because years of research have produced detailed mathematical models of the human body. These models can now simulate health, disease or injury. "Without research into the complex mathematics and physics of the body, we could never have these simulators," states Tooley.
Institute of Physics. January 2002.