Title :
Research on virtual training simulation for intra-cardiac intervention
Author :
Huang, Peng ; Chao, Jiangang
Author_Institution :
China Astronaut Res. & Training Center, Sci. & Technol. on Human Factors Eng. Lab., Beijing, China
Abstract :
Obtaining the expertise to perform minimally invasive cardiac interventions requires thorough training. We developed a real-time system for training in catheter ablation of atrial fibrillation, which can simulate the sheath/catheter movement and deformation in the left atrium. The behavior of the sheath/catheter is simulated using a hybrid bilayer deformation model based on geometric deformation technology and a mass-spring model. The geometric deformation technology reproduces the bending of the catheter more accurately, while the mass-spring model makes the deformation caused by collision with the heart more realistic. Our results show that the behavior of the catheter matches the practical situation to a degree that can satisfy medical training requirements.
Keywords :
bending; biomedical education; cardiology; catheters; computer based training; digital simulation; medical computing; real-time systems; virtual reality; atrial fibrillation; catheter ablation; catheter bending; catheter deformation simulation; catheter movement simulation; geometric deformation technology; hybrid bilayer deformation model; intra-cardiac intervention; left atrium; mass-spring model; medical training requirements; minimally invasive cardiac interventions; real-time system; sheath deformation simulation; sheath movement simulation; virtual training simulation; Catheters; Computational modeling; Deformable models; Heart; Solid modeling; Training; Wires; catheter; minimally invasive cardiac intervention; sheath; virtual training;
Conference_Titel :
Systems and Informatics (ICSAI), 2012 International Conference on
Conference_Location :
Yantai
Print_ISBN :
978-1-4673-0198-5
DOI :
10.1109/ICSAI.2012.6223235
