The integration of simulated medicine, leveraging software, machines, and advanced simulators has revolutionized medical education and surgical training. The adoption of virtual anatomic tables, low-reliability task trainers, and high-fidelity simulators enables students to acquire theoretical knowledge and practical skills at various stages of their medical journey. From replicating clinical scenarios to enhancing surgical training, simulation plays a pivotal role in addressing challenges posed by limited clinical exposure. The evolution toward virtual and augmented reality simulators, along with robot-assisted surgical platforms, signifies a paradigm shift in medical education. The chapter emphasizes the imperative incorporation of artificial intelligence concepts into medical curricula to prepare future healthcare professionals for the technologically advancing healthcare landscape.
Medical Training for Machines and Software
Aveni G.;Cherchi V. A.
2024-01-01
Abstract
The integration of simulated medicine, leveraging software, machines, and advanced simulators has revolutionized medical education and surgical training. The adoption of virtual anatomic tables, low-reliability task trainers, and high-fidelity simulators enables students to acquire theoretical knowledge and practical skills at various stages of their medical journey. From replicating clinical scenarios to enhancing surgical training, simulation plays a pivotal role in addressing challenges posed by limited clinical exposure. The evolution toward virtual and augmented reality simulators, along with robot-assisted surgical platforms, signifies a paradigm shift in medical education. The chapter emphasizes the imperative incorporation of artificial intelligence concepts into medical curricula to prepare future healthcare professionals for the technologically advancing healthcare landscape.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
